📋 Browse Articles

🔍 Search 📋 Browse 🏷️ Tags ❤️ Favourites ➕ Add 🧪 BiometalDB 🧬 Extraction
🏷️ Tags (31969 usages)
📦 Other 1510
▸ Other (850)
brain-derived neurotrophic factor (39)neuroplasticity (32)exercise (20)neurobiology (19)neurotoxicity (18)trkb (16)traditional chinese medicine (15)genetics (15)neurotrophic factors (14)hippocampal (13)central nervous system (12)neuroprotective (11)gut-brain axis (10)neurology (10)stroke (10)obesity (9)neurotrophic (9)psychology (9)dementia (9)zebrafish (8)bipolar disorder (8)neurotrophins (8)blood-brain barrier (8)aging (7)anti-inflammatory (7)neuropsychiatric disorders (7)memory (7)nanoparticles (7)neuropathic pain (7)neurotransmission (6)neurological disorders (6)mental health (6)neurotrophin (6)rats (6)stem cells (6)neuromodulation (6)astrocytes (6)neurodevelopmental disorders (6)psychiatry (6)cns (5)neuronal cells (5)meta-analysis (5)bioavailability (5)biochemistry (5)pathology (5)psychedelics (5)probiotics (5)amyloid-β (5)epilepsy (5)neurodevelopment (5)polymorphism (5)akt (5)aerobic exercise (5)astrocyte (4)nutrition (4)metabolomics (4)toxicity (4)neuroimmune (4)amyloid beta (4)myokines (4)brain health (4)rat model (4)physical exercise (4)neurotransmitter (4)ischemic stroke (4)neuropathology (4)physical activity (4)ngf (4)mesenchymal stem cells (4)neurodevelopmental disorder (4)physiological (3)overactive bladder (3)neuroblastoma (3)amyloid-beta (3)pathophysiology (3)extracellular vesicles (3)immune cells (3)microbiota (3)pi3k (3)neurotransmitters (3)pain management (3)camp (3)il-6 (3)neuronal survival (3)erk (3)hypoxia (3)interleukin-6 (3)estrogen (3)amyloid (3)neural development (3)intervention (3)neurobehavioral (3)voiding dysfunction (3)bioinformatics (3)metabolic (3)immunomodulation (3)ischemia (3)mitophagy (3)long-term potentiation (3)extracellular matrix (3)chemotherapy (3)brain function (3)psilocybin (3)microbiome (3)neuroendocrine (3)endocrine (3)cytokines (3)mouse model (3)neuropsychiatric (3)gastrointestinal (3)psychiatric disorders (3)sciatic nerve injury (3)anxiety disorders (3)hyperlipidemia (3)neurobiological (3)nerve growth factor (2)neuronal function (2)developmental toxicity (2)neural (2)gut health (2)biological (2)immunology (2)camkii (2)excitotoxicity (2)electrophysiological (2)urinary biomarkers (2)val66met polymorphism (2)behavioral (2)neuronal development (2)sleep deprivation (2)alpha-synuclein (2)neurological deficits (2)neuropsychiatry (2)empagliflozin (2)p2x4r (2)psychiatric disorder (2)cytokine (2)physiology (2)polyphenol (2)western diet (2)amnesia (2)calcium (2)multi-omics (2)gene therapy (2)neural stem cells (2)magnetic stimulation (2)exercise interventions (2)generalized anxiety disorder (2)serotonergic (2)yoga (2)microglial polarization (2)ischemic brain injury (2)mdd (2)in vivo (2)suicide (2)pathogenesis (2)anesthesia (2)cell death (2)substance use disorders (2)skeletal muscle (2)lead (2)radiotherapy (2)cardiology (2)5-ht (2)lactate (2)lipopolysaccharide (2)inflammatory (2)intermittent fasting (2)brain-gut axis (2)microgravity (2)mindfulness (2)hippocampal bdnf (2)hypertension (2)immunomodulatory (2)flavonoid (2)bone marrow (2)polyunsaturated fatty acids (2)ganoderma lucidum (2)pain (2)high-fat diet (2)gsk-3β (2)tissue engineering (2)adhd (2)il-10 (2)ampk (2)pink1 (2)microglial activation (2)muscle atrophy (2)amplitude (2)peripheral neuropathy (2)tissue plasminogen activator (2)metabolic health (2)healthy aging (2)wild (1)protein kinase (1)pesticide (1)brain abnormalities (1)immune (1)neural health (1)apoe (1)plant-based (1)cellular models (1)neurodevelopmental trajectories (1)synthesis (1)neurobehavioral toxicity (1)cas9 (1)histology (1)electrical stimulation (1)microglial dysfunction (1)hippocampal neurogenesis (1)plasticity (1)glutamatergic (1)phytochemical (1)urinary ngf (1)muscle weakness (1)gα (1)probdnf (1)stem cell therapy (1)nogo-a (1)schwann cell (1)diabetic neuropathy (1)blood biomarker (1)memantine (1)gs3kβ pathway (1)akt1 (1)nssi (1)ect (1)matrix metalloproteinases (1)nme3 (1)biology (1)platelet activation (1)whole-body vibration (1)gestation (1)neuronal plasticity (1)brain barriers (1)neurotransmitter systems (1)biomedicine (1)excipient selection (1)misa (1)genetic polymorphism (1)gsк-3β (1)bayesian network meta-analysis (1)addictive behaviors (1)motor neurons (1)chemical (1)tlr4 (1)psychotherapy (1)plga (1)atrazine (1)induced pluripotent stem cells (1)processed products (1)mental illness (1)nr2b (1)dendritic atrophy (1)domestication (1)adverse childhood experiences (1)hydrophobic interior (1)gestational intermittent hypoxia (1)neuropathy (1)calcineurin (1)sepsis-associated brain injury (1)gdnf (1)crispr (1)becn1 (1)appetite (1)derivatives (1)pediatric (1)nanocage (1)fibromyalgia (1)omega-3 fatty acids (1)paroxetine (1)mri (1)methyl donor (1)neuromodulatory (1)embryo development (1)case management (1)brain aging (1)bcl-2 (1)mettl3 (1)htr2c (1)psychological disorders (1)neurite outgrowth (1)erythropoietin (1)mastication (1)proteolytic processing (1)brain distribution (1)methylation (1)mental disorder (1)intestinal flora (1)pet (1)histone deacetylase (1)gut microbiome (1)proteome (1)klotho (1)attention deficit hyperactivity disorder (1)synthetic cannabinoid (1)human health (1)gene (1)metaplasticity (1)pkb (1)neurotherapeutics (1)sciatic nerve ligation (1)play behaviour (1)pediatric motor disorder (1)eeg (1)mood (1)cxcr4 (1)de novo lipogenesis (1)ultrasound (1)psychiatric therapies (1)nf-kappa b (1)excitatory synapses (1)hap1 (1)therapy (1)il6 (1)neat1 (1)pppar (1)surgical management (1)biochemical role (1)interleukins (1)agrochemical (1)calcium channels (1)neuronal activation (1)protein (1)pathophenotypes (1)glycation (1)dyspnea (1)genomics (1)epidemiology (1)acetylcholinesterase (1)polymorphic variants (1)thiazole (1)perinatal programming (1)neural pathways (1)degradation (1)uveitis (1)synthetic opioid (1)nanocarriers (1)vitamin d3 (1)metabolic dysfunction (1)astroglia (1)pparα (1)pfas (1)glial cells (1)ace2 (1)muscle (1)network (1)uhplc-q-tof-ms/ms (1)sglt2 inhibitor (1)biological aging (1)biochemical analysis (1)astrobiology (1)microbiota-gut-brain axis (1)local translation (1)wharton's jelly (1)essential oil (1)upper motor neuron (1)vulnerability (1)visceral pain (1)adolescence (1)histological damage (1)amyk (1)systemic (1)neural alterations (1)maoa (1)neuroprotectants (1)metabolic flexibility (1)polycystic ovary syndrome (1)neuroprotectors (1)trk (1)genotype (1)migration (1)brain metastases (1)jak2 (1)neuron-microglia interactions (1)behavioral disorders (1)hsd10 (1)aging brain (1)neurotoxicants (1)cell biology (1)neurological function (1)pkr inhibition (1)mict (1)antipsychotic (1)child mental disorder (1)blood brain barrier (1)stat3 (1)ipsc-derived neurons (1)cannabis (1)sepsis-associated encephalopathy (1)functional (1)olfaction (1)protein design (1)neurons (1)genetic background (1)axon growth (1)metformin (1)atf4 (1)blood-based biomarkers (1)multisystem (1)neutrophil extracellular traps (1)cd4 (1)phenolic acid (1)tissue inhibitors of metalloproteinases (1)inflammasome (1)obstetrics (1)fat oxidation (1)ondansetron (1)physical function (1)ipsc (1)ythdf1 (1)glymphatic function (1)immune system (1)nutritional strategies (1)anesthetics (1)ich (1)electroencephalogram (1)rodent models (1)in vivo study (1)phthalates (1)physiotherapy (1)nlrp3 (1)electroporation (1)older adults (1)sexual dysfunction (1)mice (1)sesquiterpenoid (1)fibrinolytic (1)gut-brain interactions (1)n-acetylcysteine (1)body weight (1)mfn2 (1)rat brain (1)hiit (1)inflammatory process (1)spinal disc (1)pacap (1)opioid use (1)ayahuasca (1)genetic risk factor (1)pkc delta (1)endothelial cells (1)lactation (1)hepatocellular carcinoma (1)cell viability (1)necrotic cell death (1)offspring behavior (1)cholinergic dysfunction (1)neurobiomarkers (1)neurotrophin-3 (1)canagliflozin (1)anxiety disorder (1)orthopedic fixation (1)neurodevelopmental biology (1)fragile x syndrome (1)npas4 (1)mesoporous silica (1)cardioprotective (1)hydrocephalus (1)neurological disorder (1)microbiomics (1)nanotherapeutics (1)tubulin (1)neuroinflammatory signalling (1)sineup (1)p75ntr (1)8-iso-pgf2α (1)diabetic neuropathic pain (1)lumbrokinase (1)nlrp3 inflammasome (1)neural organoid (1)neurobiochemistry (1)photoplethysmography (1)cadmium (1)fibroblast-growth factor-21 (1)bulimia (1)calcium-binding protein (1)nursing intervention (1)lipid rafts (1)hallucinogens (1)immune checkpoint (1)trka (1)biological markers (1)social interaction (1)systemic inflammation (1)passive smoking (1)atp production (1)nad (1)biological pathways (1)endocrine disorder (1)decline (1)anxiolytic (1)translation (1)kinases (1)personalized medicine (1)protein formulation (1)vagus nerve (1)carbon dots (1)aerobic (1)in vivo efficacy (1)polyphenols (1)motivational behaviors (1)gonadal hormones (1)nanotechnology (1)neurological growth (1)mitogen-activated protein kinase (1)cannabidiol (1)neuronal degeneration (1)oxidative damage (1)public health (1)radiation-induced brain injury (1)cholinergic (1)therapeutics (1)meditation (1)salmon (1)gut brain axis (1)chemokines (1)toxoplasma gondii (1)omics (1)bdnf/trkb pathway (1)neuroanatomy (1)hepatoprotective (1)nanofibers (1)growth factor (1)dietary triglyceride (1)eating behavior (1)tgf-β (1)homing (1)neuropsychology (1)visual stimulation (1)histone (1)t cells (1)diabetic ischemic brain injury (1)bax (1)behavioral performance (1)prkn (1)metabolic alterations (1)stem cell (1)axon guidance (1)sumoylation (1)acd (1)erbb4 inhibitor (1)two-hit model (1)perk (1)tug1 (1)gene activation (1)tea polyphenols (1)tcm (1)developmental neurotoxicity (1)hormonal (1)plasmin (1)emotion axis (1)bdnf pathway (1)mmp-9 (1)heavy metal (1)histologic analysis (1)platelet factor 4 (1)fisetin (1)neurobehavioral deficits (1)anaerobic exercise (1)hypoxanthine (1)motor function (1)hippocampal neurons (1)psychedelic (1)nutritional psychiatry (1)nerve injury (1)brain-derived neurotrophic factors (1)behaviors (1)mct oil (1)hippocampal plasticity (1)hippocampal development (1)kcc2 (1)peripheral blood mononuclear cells (1)ecb (1)pcl (1)exercise intervention (1)glial scarring (1)ovine (1)lung-brain axis (1)hyperventilation syndrome (1)hbv (1)endocannabinoid pathways (1)geriatrics (1)neonatal brain proteomics (1)muscle pain (1)etiology (1)weightlessness (1)biodegradable materials (1)ho-1 (1)pain subtypes (1)cxcl12 (1)bdnf signalling (1)p2x7r (1)salivary gland (1)cholesterol (1)vitamin d (1)behavior (1)nmda (1)genetic (1)sociodemographic factors (1)neuroprotective properties (1)ethanol (1)oral delivery (1)suicidal ideation (1)neurophysiology (1)synovial fibroblasts (1)translational (1)bioactivity (1)function (1)neural stimulation (1)muscle function (1)ophthalmology (1)gene-tbi interactions (1)macrophages (1)cannabinoid (1)fatty acids (1)piezoelectric (1)tms (1)hepatic encephalopathy (1)mood disorders (1)tph2 (1)cardiometabolic disease (1)psychological (1)single-nucleotide variants (1)schwann cells (1)euglena gracilis (1)inflammatory bowel disease (1)intestinal barrier (1)emotional disorders (1)hyperammonemia (1)5-ht pathway (1)app (1)sleep (1)olfactory system (1)neurovegetative (1)beta-glucan (1)lithium chloride (1)psychobiotics (1)brainstem (1)neuronal growth (1)glioma (1)apolipoprotein e (1)psychotropic (1)substance use disorder (1)neurobiological alterations (1)dendritic morphology (1)b-cell lymphoma 2 (1)puberty (1)cmd (1)electromagnetic field (1)neurochemicals (1)pgc1α (1)low back pain (1)dheas (1)biological sciences (1)intranasal delivery (1)neurotrophic hypothesis (1)cbt (1)sik1 (1)magnetically targeted (1)motor neuron disease (1)visceral hypersensitivity (1)psychiatric genetics (1)drp1 (1)butyrate (1)six3 (1)triclocarban (1)proteomic clustering (1)pharmaceutical (1)cellular nerve damage (1)parkin (1)sciatic nerve (1)pediatrics (1)sepsis (1)pcr (1)traditional uyghur medicine (1)murine model (1)bace1 (1)liquid crystalline (1)gwas (1)neuroblastoma cells (1)signalling pathway (1)brain oxygenation (1)paxillin (1)inflammatory markers (1)neural damage (1)mass spectrometry (1)sleep-promoting (1)monocytes (1)mh (1)sex hormones (1)brain biomarkers (1)immune activation (1)glutamatergic system (1)akt pathway (1)pituitary gland (1)neurochemistry (1)phytochemical analysis (1)plant (1)behavioral deficits (1)tnfα (1)psychiatric (1)peripheral nerve injury (1)clearance system (1)acrylamide (1)behavioral dysfunction (1)gut-hippocampus axis (1)neonatal development (1)vitamin c (1)ppparα (1)uflc-q-tof-ms/ms (1)stagnant phlegm syndrome (1)neurodelivery (1)cav1 (1)metabolic processes (1)gpr40 (1)na/k-atpase (1)nuclear translocation (1)nanoemulsion (1)pericytes (1)p2y1r (1)next-generation sequencing (1)neuroactive lignan (1)food intake (1)neuronal injury (1)muscle denervation (1)inflammatory pathways (1)sox5 (1)herbicide (1)neuroma (1)maya-mestizo population (1)dexras1 (1)msc (1)microcystin (1)amyloid plaque (1)cardiometabolic (1)rat models (1)val66met (1)rock1 (1)plasma technology (1)statins (1)bdnf-trkb pathway (1)mendelian randomization (1)protein kinase b (1)neural plasticity (1)oxidative balance (1)spleen-kidney deficiency (1)prisma (1)metabolic function (1)proinflammatory cytokines (1)antioxidative (1)multiple system atrophy (1)neurobehavior (1)mcao (1)herbal medicine (1)eating disorders (1)brain plasticity (1)hyperglycemia (1)visual function (1)peripheral brain-derived neurotrophic factor (1)lithium (1)dry eye model (1)hepatocyte (1)tnf-α (1)proteases (1)neurological health (1)steroid hormones (1)dendritic spine (1)uhplc-qtof-ms (1)social memory (1)perineuronal networks (1)phytoestrogen (1)childhood obesity (1)lc-ms (1)microvesicles (1)caspase-4 (1)inflammaging (1)muscle-brain axis (1)spions (1)therapeutic implications (1)adolescent brain (1)rotenone (1)metabolic syndrome (1)no (1)lineage (1)neural network (1)phq-9 (1)lipid-lowering (1)gene mutations (1)biochemical (1)pka (1)central sensitization (1)matrix metalloproteases (1)risperidone (1)morphological deficits (1)panax ginseng (1)bioprinted (1)neurotoxicity-associated metabolic alterations (1)polymorphisms (1)minocycline (1)ntrk (1)lcn2 (1)behavioral science (1)liver injury (1)pituitary (1)biophysics (1)cholinergic function (1)orthopedics (1)neural tissue (1)hippocampal injury (1)gastric ulcer (1)vitality (1)space medicine (1)igf-1 (1)intrinsic capacity (1)central nervous system disorders (1)neurodevelopmental studies (1)single-nucleotide polymorphisms (1)fasd (1)polygalae radix (1)exerkines (1)pathophysiological interactions (1)walking (1)chemobrain (1)neural function (1)ingestion (1)bangladeshi population (1)urodynamics (1)aβ plaques (1)immuno-modulation (1)pathway (1)neuroendocrinology (1)supplementation (1)brain tissue (1)cardiotoxicity (1)mglur5 (1)acetylation (1)microplastic (1)therapeutic perspectives (1)methylxanthine (1)naphthoquinone (1)myokine (1)analgesia (1)gst (1)choroid plexus (1)plasma biomarkers (1)glutamatergic pathways (1)biomaterials (1)global health (1)inhibitor (1)
⚗️ Metals 1041
▸ Metals — Other (620)
neuroscience (64)cognitive function (30)synaptic plasticity (25)stress (15)antidepressant (14)pharmacology (11)cognitive dysfunction (10)toxicology (9)cognition (9)serotonin (8)major depressive disorder (7)molecular biology (7)spinal cord injury (7)prefrontal cortex (7)chronic stress (6)autism spectrum disorder (6)chronic pain (6)exosomes (6)ptsd (6)cognitive (6)irisin (5)pregnancy (5)memory impairment (5)network pharmacology (5)cognitive performance (5)endoplasmic reticulum stress (5)neuropharmacology (5)environmental enrichment (4)homeostasis (4)oncology (4)neuroprotective effects (4)traumatic brain injury (4)molecular mechanisms (4)depressive disorder (4)cardiovascular (4)psychopharmacology (4)neuroregeneration (4)resveratrol (4)post-traumatic stress disorder (4)chitosan (4)affective disorders (3)osteoporosis (3)insomnia (3)high-intensity interval training (3)neurobiological mechanisms (3)serum (3)treatment-resistant depression (3)mirna (3)nerve regeneration (3)animal model (3)transcriptomics (3)acupuncture (3)sarcopenia (3)molecular dynamics (3)molecular (3)molecular docking (3)autism (3)rehabilitation (3)electroconvulsive therapy (3)regenerative medicine (3)bioactive compounds (3)prenatal stress (3)melatonin (3)cums (2)tau protein (2)cancer progression (2)er stress (2)glucocorticoid receptor (2)insulin resistance (2)preclinical (2)metabolic regulation (2)quality of life (2)docosahexaenoic acid (2)pharmacogenomics (2)neuroprotective mechanisms (2)gene regulation (2)heart failure (2)alcohol consumption (2)amyotrophic lateral sclerosis (2)ketogenic diet (2)neural circuitry (2)antidepressants (2)trauma (2)retina (2)neurovascular (2)mir-34a-5p (2)ginsenosides (2)stroke recovery (2)transcriptome (2)transcranial magnetic stimulation (2)systematic review (2)molecular pathways (2)regulatory mechanisms (2)executive function (2)postoperative care (2)neuroprotective effect (2)corticosterone (2)post-stroke depression (2)retinal ganglion cells (2)premature ejaculation (2)cognitive recovery (2)selenium (2)learning (2)pharmacological (2)glucagon-like peptide-1 (2)functional recovery (2)circadian rhythms (2)endocrine disruptors (2)early-life stress (2)axonal regeneration (2)naringenin (2)cognitive deficits (2)endoplasmic reticulum (2)alcohol (2)depressive behaviors (2)peripheral nerve regeneration (2)nmda receptor (2)cognitive health (2)cortisol (2)cytoskeleton (2)postoperative cognitive dysfunction (2)infralimbic cortex (2)cerebrum (2)cortical neurons (2)synaptic dysfunction (2)molecular targets (2)benzalkonium chloride (2)prebiotics (2)mild cognitive impairment (2)ethnopharmacology (2)cognitive functions (2)regeneration (2)tau (1)viral infections (1)stress responses (1)physicochemical characterization (1)brain immunity (1)correction (1)retinoic acid (1)post-translational modification (1)exposure (1)lucidenic acid a (1)hepatic steatosis (1)dietary regulation (1)nerve conduits (1)environmental pollutants (1)perigestational opioid exposure (1)meta-regression (1)mechanosensory hair cells (1)hippocampal ca2 region (1)neural precursors (1)photoreceptors (1)anaerobic glycolytic flux (1)respiratory (1)randomized controlled trials (1)ischemic postconditioning (1)molecular changes (1)growth cones (1)total abdominal irradiation (1)cardiovascular disease (1)aggression (1)gold nanoparticles (1)circrna (1)preclinical evidence (1)traumatic injury (1)dopamine d2 receptor (1)progressive (1)psychological trauma (1)drug metabolism (1)neural structure (1)synaptic transmission (1)laquinimod (1)preterm birth (1)resilience (1)peptide design (1)fermented food (1)spatial learning (1)complications (1)allergic contact dermatitis (1)particulate matter (1)corticospinal tract (1)chronic restraint stress (1)cerebellum (1)hepatitis b virus (1)copd (1)post-stroke cognitive impairment (1)tryptophan metabolism (1)ginsenoside (1)auricular vagus nerve stimulation (1)biosynthesis (1)scoping review (1)vascular endothelium (1)opioid prescription (1)mir-381-3p (1)learning-memory (1)fetal alcohol spectrum disorders (1)emotion perception (1)hippocampal structure (1)cell communication (1)sedative-hypnotic effects (1)amniotic fluid stem cell (1)cardiovascular disorders (1)nerve guidance conduits (1)regulatory network (1)synaptic impairment (1)peroxisome proliferator-activated receptor alpha (1)neurocognitive impairment (1)aquatic ecosystems (1)fibronectin type iii domain-containing protein 5 (1)phosphorylated tau (1)oxygen-glucose deprivation (1)chronicity (1)intracerebral hemorrhage (1)osteosarcopenia (1)behavioral responses (1)anorexia (1)selective serotonin reuptake inhibitors (1)stable love relationships (1)psychological treatment (1)hippocampal regeneration (1)redox homeostasis (1)neuroprotective molecules (1)neurovascular plasticity (1)neuropeptide (1)irradiation (1)hemorheological parameters (1)cellular mechanisms (1)cognitive flexibility (1)astrocytic disruption (1)alcohol dependence (1)stroke treatment (1)irritable bowel syndrome (1)seizure susceptibility (1)immune reactions (1)tumor necrosis factor alpha (1)mirnas (1)menopausal (1)microbiota dysbiosis (1)bed rest (1)nicotine (1)bone loss (1)cubosome formulation (1)post traumatic stress disorder (1)vascular dysfunction (1)hyperandrogenism (1)pd-1 (1)hippocampal neuronal apoptosis (1)prenatal exposure (1)pyroptosis (1)withaferin a (1)glycolysis (1)microenvironment (1)redox balance (1)circadian rhythm (1)olfactory exposure (1)nose-to-brain delivery (1)neurocognitive outcomes (1)sex differences (1)neuro-osteogenic microenvironment (1)acute ischemic stroke (1)psychedelic drugs (1)sinomenine (1)secretory protein (1)maladaptive neuroplasticity (1)facial recognition (1)stress disorder (1)carnosine (1)synaptic deficits (1)mir-146a-3p (1)regulation (1)ferritin (1)protein secretion (1)scopolamine-induced amnesia (1)randomized controlled trial (1)principal component analysis (1)appetite regulation (1)psychiatric comorbidities (1)environmental toxicology (1)gynecology (1)hif-1α-epo/camp-creb-bdnf pathway (1)depressive states (1)learning process (1)neural regeneration (1)cardiac arrest (1)psychological outcomes (1)affective states (1)gut dysbiosis (1)long non-coding rnas (1)prefrontal-limbic connectivity (1)psychological reaction (1)extremely low-frequency magnetic field (1)clinical assessment (1)microglial exosomes (1)neurotoxicology (1)epileptogenesis (1)clinical trial (1)anabolic-androgenic steroid (1)ethnic medicine (1)mitochondrial calcium uniporter (1)weight loss (1)amitriptyline (1)stress responsivity (1)serotonergic circuit (1)lps-induced depression (1)locomotion (1)steroidal saponin (1)aquatic organisms (1)correlation (1)drug response (1)transcriptomic (1)long non-coding rna (1)rheumatoid arthritis (1)rem theta (1)absorption (1)chronic heart failure (1)fentanyl administration (1)molecular toxicology (1)vascular cognitive impairment (1)motor impairment (1)adipose-derived stem cells (1)neuro-related disorders (1)emotional regulation (1)restraint stress (1)regenerative capabilities (1)antinociceptive (1)cerebral palsy (1)cerebral infarction (1)normal pressure hydrocephalus (1)positron emission tomography (1)bioengineered delivery system (1)adenosine (1)connexin43 (1)immunoregulation (1)comorbid (1)cerebrovascular disease (1)in silico (1)moderate-intensity continuous training (1)cognitive improvement (1)stress-induced depressive behaviors (1)drug delivery (1)lycopene delivery (1)host-virus interactions (1)phosphatidic acid (1)sirt1 (1)neuroserpin (1)heat stress (1)macular degeneration (1)medial prefrontal cortex (1)intranasal drug delivery (1)early diagnosis (1)rem sleep behavior disorder (1)seizures (1)psychosocial (1)prenatal supplementation (1)adeno-associated virus (1)neurotoxic effects (1)proanthocyanidins (1)neurocognitive (1)anti-inflammatory effects (1)gestational opioid exposure (1)nociceptive sensitization (1)stress axis regulation (1)anthocyanins (1)pruritus (1)phlorotannin (1)high intensity interval training (1)prosopis cineraria (1)psychosis (1)constipation (1)psychedelic compounds (1)delphinidin (1)myostatin (1)triterpenoid saponins (1)limbic structures (1)osteoblast (1)bdnf expression (1)poly(lactic-co-glycolic acid) (1)korean population (1)neuroimmune crosstalk (1)chronic diseases (1)low birthweight (1)α7 nicotinic acetylcholine receptor (1)protein quality control (1)peptide hydrogel (1)fecal calprotectin (1)metabolic adaptation (1)single-cell transcriptomics (1)cell differentiation (1)neurogenic bladder (1)hippocampal synaptic proteins (1)chemoresistance (1)herb pair (1)chronotropic incompetence (1)autism-like behavior (1)testicular health (1)aggressive behavior (1)allodynia (1)obstructive sleep apnea (1)opioid overdose (1)gold coast criteria (1)n-methyl-d-aspartate receptor (1)psychological stress (1)betulinic acid (1)retinal degeneration (1)depressive pathologies (1)traumatic event (1)ros (1)extremely low-frequency electromagnetic field (1)cognitive impairments (1)chronic toxoplasmosis (1)dacomitinib (1)serotonin 5-ht2a receptor (1)pulmonary fibrosis (1)psychostimulant (1)chronic unpredictable mild stress (1)tobacco smoke (1)radiofrequency electromagnetic fields (1)fetal brain development (1)sedative-hypnotic effect (1)social buffering (1)depressive disorders (1)epigenetic dysregulation (1)neuroimmune circuits (1)childhood growth restriction (1)resolvin d1 (1)molecular design (1)glp-1 receptor agonists (1)brain-gut homeostasis (1)neurotrophic adaptation (1)liver failure (1)creb pathway (1)diclofenac (1)n6-methyladenosine (1)immune mechanisms (1)laminin (1)cerebrovascular accidents (1)suicide attempt (1)neural repair (1)synaptic (1)adverse outcome pathway (1)opioid receptors (1)memory impairments (1)fibrotic remodeling (1)neuronal communication (1)appetite control (1)outcomes (1)hypothalamus-pituitary-adrenal axis (1)serum bdnf levels (1)lung homeostasis (1)perioperative neurocognitive disorders (1)cognitive training (1)melatonin receptor (1)adolescent social isolation stress (1)cognitive therapy (1)fear memory (1)osseointegration (1)musculoskeletal system (1)colitis (1)autoimmune uveitis (1)light treatment (1)cerebral protection (1)neurotrophic dysregulation (1)ingredient (1)developmental neurotoxicology (1)transcriptional changes (1)neurosteroids (1)environmental conditions (1)orthostatic hypotension (1)pathological microenvironment (1)autologous serum (1)physiological resilience (1)spatial transcriptomics (1)function recovery (1)age-related macular degeneration (1)seizure (1)mangiferin (1)preclinical models (1)herpes simplex virus (1)exosome-based therapy (1)peptides (1)melanocortin (1)tau phosphorylation (1)tumor necrosis factor (1)eicosapentaenoic acid (1)neural circuit (1)hypothalamic-pituitary-adrenal axis (1)brain structure (1)phosphatidylserine (1)irák1 (1)colorectal cancer (1)perinatal depression (1)learning ability (1)allostatic load (1)adolescent depression (1)creatine supplementation (1)affective dysfunction (1)non-pharmacological interventions (1)personal care products (1)diagnosis (1)unfolded protein response (1)antidepressant mechanisms (1)cerebral hemorrhage (1)autophagic pathway (1)nanocomposite hydrogel (1)causal relationship (1)fear extinction (1)neuropeptide s (1)nociceptive responses (1)dpd-4 inhibitors (1)traumatic stress disorder (1)colon cancer (1)tau hyperphosphorylation (1)tyrosine kinase receptor b (1)ecosystems (1)reproductive physiology (1)stress regulation (1)motor learning (1)disease-syndrome combined model (1)methionine-choline-deficient diet (1)s-nitrosylation (1)neurocognitive disorders (1)postmenopausal women (1)neural recovery (1)kaempferol (1)postoperative delirium (1)receptor (1)social cognition (1)neurocognition (1)environmental (1)hcortisolaemia (1)integrated stress response (1)systemic effects (1)antiretroviral therapy (1)adenosine receptor (1)late-life cognitive decline (1)traumatic memories (1)energy homeostasis (1)antidepressant effect (1)physiological adaptations (1)inflammatory responses (1)tissue architecture (1)vascularization (1)neuroimmune responses (1)human respiratory syncytial virus (1)vision loss (1)rapid antidepressant effects (1)tau pathology (1)drug release (1)signal peptide (1)noncommunicable diseases (1)electrospun (1)alcohol-induced cognitive impairment (1)vasoactive intestinal polypeptide (1)cognitive behavior (1)hypothalamic pituitary adrenal axis (1)machine learning (1)hypothalamic-pituitary adrenal axis (1)parkinsonism (1)cognitive resilience (1)impairment (1)experimental autoimmune uveoretinitis (1)precursor state (1)hmg-coa reductase inhibitors (1)tumor necrosis factor-α (1)relationship (1)cognitive aging (1)clinical psychology (1)antidepressant activity (1)optic nerve injury (1)mechanistic (1)vascular maturation (1)biomechanics (1)aerospace medicine (1)oncogenic drivers (1)differentiation (1)resistance training (1)paraventricular nucleus (1)ecotoxicity (1)synaptic homeostasis (1)environmental concern (1)bdnf/creb pathway (1)creb phosphorylation (1)mood dysregulation (1)nitrous oxide (1)dentate gyrus (1)paternal exposure (1)behavioral despair (1)nicotine exposure (1)lactobacillus plantarum (1)electroacupuncture (1)female mice (1)fetal neural development (1)tropomyosin receptor kinase b (1)environmental contaminants (1)differentiation protocols (1)magnetic resonance imaging (1)reward processing (1)arsenic (1)steroid effects (1)diosgenin (1)stress hormone (1)oral administration (1)hemorheology (1)synaptic models (1)reversal learning (1)synaptic signaling (1)cognitive outcomes (1)presynaptic (1)magnetic field exposure (1)ischemia reperfusion injury (1)nitric oxide (1)toxoplasmosis (1)tyrosine kinase inhibitors (1)acute hepatitis (1)glucagon-like peptide-1 receptor agonists (1)somatosensory cortex (1)serotonin pathway (1)biological effects (1)cyanidin (1)breast cancer (1)
💊 Drugs 4

🔍 Filters

28383 articles
Małgorzata Kałużna, Bartłomiej Budny, Michał Rabijewski +8 more · 2024 · Frontiers in endocrinology · Frontiers · added 2026-04-24
Normosmic isolated hypogonadotropic hypogonadism (nIHH) is a clinically and genetically heterogeneous disorder. Deleterious variants in over 50 genes have been implicated in the etiology of IHH, which Show more
Normosmic isolated hypogonadotropic hypogonadism (nIHH) is a clinically and genetically heterogeneous disorder. Deleterious variants in over 50 genes have been implicated in the etiology of IHH, which also indicates a possible role of digenicity and oligogenicity. Both classes of genes controlling GnRH neuron migration/development and hypothalamic/pituitary signaling and development are strongly implicated in nIHH pathogenesis. The study aimed to investigate the genetic background of nIHH and further expand the genotype-phenotype correlation. A total of 67 patients with nIHH were enrolled in the study. NGS technology and a 38-gene panel were applied. Causative defects regarded as at least one pathogenic/likely pathogenic (P/LP) variant were found in 23 patients (34%). For another 30 individuals, variants of unknown significance (VUS) or benign (B) were evidenced (45%). The most frequently mutated genes presenting P/LP alterations were The growing importance of the neuroendocrine pathway and related genes is drawing increasing attention to nIHH. However, the underestimated potential of VUS variants in IHH etiology, particularly those presenting recurrence, should be further elucidated. Show less
📄 PDF DOI: 10.3389/fendo.2024.1396805
FGFR1
Cho R Hong, Lydia P Liew, Way W Wong +9 more · 2024 · Journal of medicinal chemistry · ACS Publications · added 2026-04-24
The dominant role of non-homologous end-joining in the repair of radiation-induced double-strand breaks identifies DNA-dependent protein kinase (DNA-PK) as an excellent target for the development of r Show more
The dominant role of non-homologous end-joining in the repair of radiation-induced double-strand breaks identifies DNA-dependent protein kinase (DNA-PK) as an excellent target for the development of radiosensitizers. We report the discovery of a new class of imidazo[4,5- Show less
📄 PDF DOI: 10.1021/acs.jmedchem.4c01120
LPL
Kevin D Fan, Elizabeth Ogunrinde, Zhuang Wan +2 more · 2024 · Microorganisms · MDPI · added 2026-04-24
Many health issues prevalent in African American (AA) populations are associated with chronic inflammation and related health conditions, including autoimmune diseases, infectious diseases, neurologic Show more
Many health issues prevalent in African American (AA) populations are associated with chronic inflammation and related health conditions, including autoimmune diseases, infectious diseases, neurologic disorders, metabolic syndromes, and others. The current study aims to understand plasma microbiome translocation as a potential trigger for chronic inflammation. In this study, 16 Caucasian American (CA) and 22 African American (AA) healthy individuals were recruited. Microbial DNA was isolated from the plasma samples and sequenced via microbial 16S rRNA V3-4 sequencing. The plasma levels of 33 cytokines and chemokines were evaluated. The proinflammatory microbiomes were verified using human THP-1 cells in vitro. The plasma levels of IL-6, IL-15, MIP-1α, MIP-1β, and MIP-3α were higher in the AA people, whereas IL-1α and IL-27 were elevated in the CA people. The plasma microbiomes exhibited eight bacterial genera/phyla differentially enriched in the CA and AA people. Given the critical role of IL-6 in chronic inflammation and associated diseases, we identified five bacteria genera significantly associated with IL-6. The abundance of Actinomyces was positively correlated with the plasma IL-6 level (r = 0.41, This is the first study to report potential blood microbiome translocation as a driver for persistently elevated IL-6 levels in the periphery in healthy AA versus CA people. Understanding the plasma microbiome linked to the IL-6 levels in people with different racial backgrounds is essential to unraveling the therapeutic approaches to improve precision medicine. Show less
📄 PDF DOI: 10.3390/microorganisms12071453
IL27
D Wünkhaus, R Tang, K Nyame +11 more · 2024 · Scientific reports · Nature · added 2026-04-24
Mutations in the lysosomal membrane protein CLN3 cause Juvenile Neuronal Ceroid Lipofuscinosis (JNCL). Activation of the lysosomal ion channel TRPML1 has previously been shown to be beneficial in seve Show more
Mutations in the lysosomal membrane protein CLN3 cause Juvenile Neuronal Ceroid Lipofuscinosis (JNCL). Activation of the lysosomal ion channel TRPML1 has previously been shown to be beneficial in several neurodegenerative disease models. Here, we tested whether TRPML1 activation rescues disease-associated phenotypes in CLN3-deficient retinal pigment epithelial (ARPE-19 CLN3-KO) cells. ARPE-19 CLN3-KO cells accumulate LAMP1 positive organelles and show lysosomal storage of mitochondrial ATPase subunit C (SubC), globotriaosylceramide (Gb3), and glycerophosphodiesters (GPDs), whereas lysosomal bis(monoacylglycero)phosphate (BMP/LBPA) lipid levels were significantly decreased. Activation of TRPML1 reduced lysosomal storage of Gb3 and SubC but failed to restore BMP levels in CLN3-KO cells. TRPML1-mediated decrease of storage was TFEB-independent, and we identified TRPML1-mediated enhanced lysosomal exocytosis as a likely mechanism for clearing storage including GPDs. Therefore, ARPE-19 CLN3-KO cells represent a human cell model for CLN3 disease showing many of the described core lysosomal deficits, some of which can be improved using TRPML1 agonists. Show less
📄 PDF DOI: 10.1038/s41598-024-67479-8
CLN3
Yingjie Shen, Changyu Li, Xi Zhang +8 more · 2024 · Frontiers in immunology · Frontiers · added 2026-04-24
The gut microbiota (GM) has been implicated in neurological disorders, but the relationship with hydrocephalus, especially the underlying mechanistic pathways, is unclear. Using Mendelian randomizatio Show more
The gut microbiota (GM) has been implicated in neurological disorders, but the relationship with hydrocephalus, especially the underlying mechanistic pathways, is unclear. Using Mendelian randomization (MR), we aim to discover the mediating role of inflammatory factors in the relationship between GM and hydrocephalus. After removing confounders, univariable and multivariable MR analyses were performed using summary statistics to assess the causal relationships between GM, inflammatory factors (IL-17A and IL-27), and types of hydrocephalus. Meta-analyses were used to reconcile the differences in MR results between different hydrocephalus sources. Finally, mediator MR analyses were applied to determine the mediating effect of inflammatory factors. Various sensitivity analysis methods were employed to ensure the reliability and stability of the results. After correction for We reveal the connection between GM, inflammatory factors (IL-17A and IL-27), and hydrocephalus, which lays the foundation for unraveling the mechanism between GM and hydrocephalus. Show less
📄 PDF DOI: 10.3389/fimmu.2024.1372051
IL27
Hongji Zhou, Rui Zhang, Min Li +5 more · 2024 · Journal of immunology research · added 2026-04-24
It has been reported that carbonic anhydrase I (CA1) is a target for the diagnosis and therapy of atherosclerosis (AS) since CA1 can promote AS aortic calcification. We also found that methazolamide ( Show more
It has been reported that carbonic anhydrase I (CA1) is a target for the diagnosis and therapy of atherosclerosis (AS) since CA1 can promote AS aortic calcification. We also found that methazolamide (MTZ), a drug for glaucoma treatment and an inhibitor of carbonic anhydrases, can treat AS by inhibiting calcification in aortic tissues. This study focused on the therapeutic mechanism of MTZ and the pathogenic mechanism of AS. In this study, a routine AS animal model was established in ApoE-/- mice, which were treated with MTZ. The aortic tissues were analyzed using single-cell sequencing. MTZ significantly increased the proportions of B-1/MZB B cells with high expressions of Nr4A1 and Ccr7, CD8+CD122+ Treg-like cells with high Nr4A1 expression, and smooth muscle cells with high Tpm2 expression. These cells or their marker genes were reported to exert immunosuppressive, anti-proinflammatory, and atheroprotective effects. MTZ also decreased the proportions of endothelial cells with high expressions of Retn, Apoc1, Lcn2, Mt1, Serpina3, Lpl, and Lgals3; nonclassical CD14+CD16++ monocytes with high expressions of Mt1, Tyrobp, Lgals3, and Cxcl2; and Spp1+ macrophages with high expressions of Mmp-12, Trem2, Mt1, Lgals3, Cxcl2, and Lpl. These cells or their marker genes have been reported to promote inflammation, calcification, tissue remodeling, and atherogenesis. A significant decrease in the proportion of CD8+CD183 (CXCR3)+ T cells, the counterpart of murine CD8+CD122+ T cells, was detected in the peripheral blood of newly diagnosed AS patients rather than in that of patients receiving anti-AS treatments. These results suggest that MTZ can treat AS by increasing immunosuppressive cells and decreasing expressions of genes related to inflammation, calcification, and tissue remodeling. Show less
📄 PDF DOI: 10.1155/2024/5009637
LPL
Yuhui Huang, Xuehui Sun, Qingxia Huang +13 more · 2024 · Translational psychiatry · Nature · added 2026-04-24
The role of circulating metabolome in cognitive impairment is inconclusive, and whether the associations are in the severity-dependent manner remains unclear. We aimed to identify plasma metabolites a Show more
The role of circulating metabolome in cognitive impairment is inconclusive, and whether the associations are in the severity-dependent manner remains unclear. We aimed to identify plasma metabolites associated with cognitive impairment and evaluate the added predictive capacity of metabolite biomarkers on incident cognitive impairment beyond traditional risk factors. In the Rugao Longevity and Ageing Study (RuLAS), plasma metabolome was profiled by nuclear magnetic resonance spectroscopy. Participants were classified into the cognitively normal, moderately impaired, and severely impaired groups according to their performance in two objective cognitive tests. A two-step strategy of cross-sectional discovery followed by prospective validation was applied. In the discovery stage, we included 1643 participants (age: 78.9 ± 4.5 years) and conducted multinomial logistic regression. In the validation stage, we matched 68 incident cases of cognitive impairment (moderately-to-severely impaired) during the 2-year follow-up with 204 cognitively normal controls by age and sex at a 1:3 ratio, and conducted conditional logistic regression. We identified 28 out of 78 metabolites cross-sectionally related to severely impaired cognition, among which IDL particle number, ApoB in IDL, leucine, and valine were prospectively associated with 28%, 28%, 29%, and 33% lower risk of developing cognitive impairment, respectively. Incorporating 13 metabolite biomarkers selected through Lasso regression into the traditional risk factors-based prediction model substantially improved the ability to predict incident cognitive impairment (AUROC: 0.839 vs. 0.703, P < 0.001; AUPRC: 0.705 vs. 0.405, P < 0.001). This study identified specific plasma metabolites related to cognitive impairment. Incorporation of specific metabolites substantially improved the prediction performance for cognitive impairment. Show less
📄 PDF DOI: 10.1038/s41398-024-03147-9
APOB
Yu-Jie Guo, Meng-Xue Ma, Tian Tian +3 more · 2024 · Oncology letters · added 2026-04-24
8p11 myeloproliferative syndrome (EMS) is a rare and aggressive hematological malignancy, characterized by myeloproliferative neoplasms, and associated with eosinophilia and T- or B-cell lineage lymph Show more
8p11 myeloproliferative syndrome (EMS) is a rare and aggressive hematological malignancy, characterized by myeloproliferative neoplasms, and associated with eosinophilia and T- or B-cell lineage lymphoblastic lymphoma. The pathogenesis is defined by the presence of chromosomal translocations associated with the fibroblast growth factor-1 ( Show less
📄 PDF DOI: 10.3892/ol.2024.14601
FGFR1
Mingmei Chen, Hui Liang, Min Wu +8 more · 2024 · International journal of biological sciences · added 2026-04-24
Bone-fat balance is crucial to maintain bone homeostasis. As common progenitor cells of osteoblasts and adipocytes, bone marrow mesenchymal stem cells (BMSCs) are delicately balanced for their differe Show more
Bone-fat balance is crucial to maintain bone homeostasis. As common progenitor cells of osteoblasts and adipocytes, bone marrow mesenchymal stem cells (BMSCs) are delicately balanced for their differentiation commitment. However, the exact mechanisms governing BMSC cell fate are unclear. In this study, we discovered that fibroblast growth factor 9 ( Show less
📄 PDF DOI: 10.7150/ijbs.94863
FGFR1
Chung-Hsiung Huang, Hung-Sheng Hsu, Meng-Tsan Chiang · 2024 · Nutrients · MDPI · added 2026-04-24
Syrian hamsters are valuable models for studying lipid metabolism due to their sensitivity to dietary cholesterol, yet the precise impact of varying cholesterol levels has not been comprehensively ass Show more
Syrian hamsters are valuable models for studying lipid metabolism due to their sensitivity to dietary cholesterol, yet the precise impact of varying cholesterol levels has not been comprehensively assessed. This study examined the impact of varying dietary cholesterol levels on lipid metabolism in Syrian hamsters. Diets ranging from 0% to 1% cholesterol were administered to assess lipid profiles and oxidative stress markers. Key findings indicate specific cholesterol thresholds for inducing distinct lipid profiles: below 0.13% for normal lipids, 0.97% for elevated LDL-C, 0.43% for increased VLDL-C, and above 0.85% for heightened hepatic lipid accumulation. A cholesterol supplementation of 0.43% induced hypercholesterolemia without adverse liver effects or abnormal lipoprotein expression. Furthermore, cholesterol supplementation significantly increased liver weight, plasma total cholesterol, LDL-C, and VLDL-C levels while reducing the HDL-C/LDL-C ratio. Fecal cholesterol excretion increased, with stable bile acid levels. High cholesterol diets correlated with elevated plasma ALT activities, reduced hepatic lipid peroxidation, and altered leptin and CETP levels. These findings underscore Syrian hamsters as robust models for hyperlipidemia research, offering insights into experimental methodologies. The identified cholesterol thresholds facilitate precise lipid profile manipulation, enhancing the hamster's utility in lipid metabolism studies and potentially informing clinical approaches to managing lipid disorders. Show less
📄 PDF DOI: 10.3390/nu16152472
CETP
Lifeng Tan, Mengfang Yan, Zijie Su +7 more · 2024 · Cell communication and signaling : CCS · BioMed Central · added 2026-04-24
R-spondins (RSPOs) are secreted signaling molecules that potentiate the Wnt/β-catenin pathway by cooperating with Wnt ligands. RSPO1 is crucial in tissue development and tissue homeostasis. However, t Show more
R-spondins (RSPOs) are secreted signaling molecules that potentiate the Wnt/β-catenin pathway by cooperating with Wnt ligands. RSPO1 is crucial in tissue development and tissue homeostasis. However, the molecular mechanism by which RSPOs activate Wnt/β-catenin signaling remains elusive. In this study, we found that RSPOs could mediate the degradation of Axin through the ubiquitin-proteasome pathway. The results of Co-IP showed that the recombinant RSPO1 protein promoted the interaction between Axin1 and CK1ε. Either knockout of the CK1ε gene or treatment with the CK1δ/CK1ε inhibitor SR3029 caused an increase in Axin1 protein levels and attenuated RSPO1-induced degradation of the Axin1 protein. Moreover, we observed an increase in the number of associations of LRP6 with CK1ε and Axin1 following RSPO1 stimulation. Overexpression of LRP6 further potentiated Axin1 degradation mediated by RSPO1 or CK1ε. In addition, recombinant RSPO1 and Wnt3A proteins synergistically downregulated the protein expression of Axin1 and enhanced the transcriptional activity of the SuperTOPFlash reporter. Taken together, these results uncover the novel mechanism by which RSPOs activate Wnt/β-catenin signaling through LRP6/CK1ε-mediated degradation of Axin. Show less
📄 PDF DOI: 10.1186/s12964-023-01456-y
AXIN1
Dearbhla Finnegan, Claire Connolly, Monica A Mechoud +6 more · 2024 · Foods (Basel, Switzerland) · MDPI · added 2026-04-24
Fermented foods and ingredients, including furmenties derived from lactic acid bacteria (LAB) in dairy products, can modulate the immune system. Here, we describe the use of reconstituted skimmed milk Show more
Fermented foods and ingredients, including furmenties derived from lactic acid bacteria (LAB) in dairy products, can modulate the immune system. Here, we describe the use of reconstituted skimmed milk powder to generate novel fermentates from Show less
📄 PDF DOI: 10.3390/foods13152392
IL27
Xiao-Meng Sun, Xin Wu, Meng-Guang Wei +5 more · 2024 · Frontiers in pharmacology · Frontiers · added 2026-04-24
📄 PDF DOI: 10.3389/fphar.2024.1437738
CPS1
Lieh-Bang Liou, Yao-Fan Fang, Ping-Han Tsai +4 more · 2024 · International journal of molecular sciences · MDPI · added 2026-04-24
It is not clear whether immunoregulatory cytokines and cells are associated with Disease Activity Score 28 (DAS28) scores and ultrasound grades/scores. Here, we investigated the relationships between Show more
It is not clear whether immunoregulatory cytokines and cells are associated with Disease Activity Score 28 (DAS28) scores and ultrasound grades/scores. Here, we investigated the relationships between immunoregulatory cytokines or cells and different DAS28 scores or ultrasound grades/scores in patients with rheumatoid arthritis (RA). This study enrolled 50 RA patients (with 147 visits) who had remission/low/moderate DAS28-ESR scores (92% in remission and low disease activity) at baseline. Blood was collected and an ultrasound was performed three times in a year. Percentages of regulatory B cells and T regulatory type 1 cells and M2 macrophage numbers in the blood were examined. Plasma levels of 10 immunoregulatory cytokines IL-4, IL-5, IL-9, IL-10, IL-13, IL-27, IL-35, TGF-β1, sTNF-R1, and sTNF-R2 and monocyte chemotactic protein-1 (MCP-1) were assessed using ELISA assay. The correlations of cytokines and cells with different DAS28 scores and ultrasound grades were investigated, and cytokines and cells were compared between different categories of DAS28 scores and ultrasound grades. Plasma TGF-β1 levels were higher in the DAS28-ESR < 2.6 (remission) subgroup than in the DAS28-ESR ≥ 2.6 (nonremission) subgroup ( Show less
📄 PDF DOI: 10.3390/ijms25168694
IL27
Sadid Al Amaz, Md Ahosanul Haque Shahid, Rajesh Jha +1 more · 2024 · Poultry science · Elsevier · added 2026-04-24
The exposure of broiler chickens to high ambient temperatures causes heat stress (HS), negatively affecting their health and production performance. To mitigate heat stress in broilers, various strate Show more
The exposure of broiler chickens to high ambient temperatures causes heat stress (HS), negatively affecting their health and production performance. To mitigate heat stress in broilers, various strategies, including dietary, managerial, and genetic interventions, have been extensively tested with varying degrees of efficacy. For sustainable broiler production, it is imperative to develop an innovative approach that effectively mitigates the adverse effects of HS. Our previous studies have provided valuable insights into the effects of prehatch embryonic thermal manipulation (TM) and posthatch baicalein supplementation on embryonic thermotolerance, metabolism, and posthatch growth performance. This follow-up study investigated the effect of these interventions on gluconeogenesis and lipid metabolism in the liver, as well as muscle proliferation and regeneration capacity in heat-stressed broiler chickens. A total of six-hundred fertile Cobb 500 eggs were incubated for 21 d. After candling, 238 eggs were subjected to TM at 38.5°C with 55% relative humidity (RH) from embryonic day (ED) 12 to 18. These eggs were transferred to the hatcher and kept at a standard temperature (37.5°C) from ED 19 to 21, while 236 eggs were incubated at a controlled temperature (37.5°C) till hatch. After hatching, 180 day-old chicks from both groups were raised in 36 pens treatment (n = 10 birds/pen, 6 replicates per treatment). The treatments were: 1) Control, 2) TM, 3) Control heat stress (CHS), 4) Thermal manipulation heat stress (TMHS), 5) Control heat stress supplement (CHSS), and 6) Thermal manipulation heat stress supplement (TMHSS). Baicalein was added to the treatment group diets starting from d 1. All birds were raised under the standard environment for 21 d, followed by chronic heat stress from d 22 to 35 (32-33 ⁰C for 8 h) in the CHS, TMHS, CHSS, and TMHSS groups. A thermoneutral (22-24⁰C) environment was maintained in the Control and TM groups. RH was constant (50 ± 5%) throughout the trial. In the liver, TM significantly increased (P < 0.05) IGF2 expression. Baicalein supplementation significantly increased (P < 0.05) HSF3, HSP70, SOD1, SOD2, TXN, PRARα, and GHR expression. Moreover, the combination of TM and baicalein supplementation significantly increased (P < 0.05) the expression of HSPH1, HSPB1, HSP90, LPL, and GHR. In the muscle, TM significantly increased (P < 0.05) HSF3 and Myf5 gene expression. TM and baicalein supplementation significantly increased (P < 0.05) the expression of MyoG and significantly (P < 0.05) decreased mTOR and PAX7. In conclusion, the prehatch TM of embryos and posthatch baicalein supplementation mitigated the deleterious effects of HS on broiler chickens by upregulating genes related to liver gluconeogenesis, lipid metabolism, and muscle proliferation. Show less
📄 PDF DOI: 10.1016/j.psj.2024.104155
LPL
Maija Vaittinen, Mariana Ilha, Ratika Sehgal +7 more · 2024 · Journal of lipid research · Elsevier · added 2026-04-24
Fatty acid desaturase (FADS1) variant-rs174550 strongly regulates polyunsaturated fatty acid (PUFA) biosynthesis. Additionally, the FADS1 is related to mitochondrial function. Thus, we investigated wh Show more
Fatty acid desaturase (FADS1) variant-rs174550 strongly regulates polyunsaturated fatty acid (PUFA) biosynthesis. Additionally, the FADS1 is related to mitochondrial function. Thus, we investigated whether changes in mitochondrial function are associated with the genetic variation in FADS1 (rs174550) in human adipocytes isolated from individuals consuming diets enriched with either dietary alpha-linolenic (ALA) or linoleic acid (LA). Two cohorts of men homozygous for the genotype of FADS1 (rs174550) were studied: FADSDIET2 dietary intervention study with ALA- and LA-enriched diets and Kuopio Obesity Surgery study (KOBS), respectively. We could demonstrate that differentiated human adipose-derived stromal cells from subjects with the TT genotype had higher mitochondrial metabolism compared with subjects with the CC genotype of FADS1-rs174550 in the FADSDIET2. Responses to PUFA-enriched diets differed between the genotypes of FADS1-rs174550, showing that ALA, but not LA, -enriched diet stimulated mitochondrial metabolism more in subjects with the CC genotype when compared with subjects with the TT genotype. ALA, but not LA, proportion in plasma phospholipid fraction correlated positively with adipose tissue mitochondrial-DNA amount in subjects with the CC genotype of FADS1-rs174550 in the KOBS. These findings demonstrate that the FADS1-rs174550 is associated with modification in mitochondrial function in human adipocytes. Additionally, subjects with the CC genotype, when compared with the TT genotype, benefit more from the ALA-enriched diet, leading to enhanced energy metabolism in human adipocytes. Altogether, the FADS1-rs174550 could be a genetic marker to identify subjects who are most suitable to receive dietary PUFA supplementation, establishing also a personalized therapeutic strategy to improve mitochondrial function in metabolic diseases. Show less
📄 PDF DOI: 10.1016/j.jlr.2024.100638
FADS1
Yingchun Zheng, Ting Lu, Leitao Zhang +7 more · 2024 · BMC biology · BioMed Central · added 2026-04-24
The molecular mechanisms and signaling pathways involved in tooth morphogenesis have been the research focus in the fields of tooth and bone development. However, the cell population in molars at the Show more
The molecular mechanisms and signaling pathways involved in tooth morphogenesis have been the research focus in the fields of tooth and bone development. However, the cell population in molars at the late bell stage and the mechanisms of hard tissue formation and mineralization remain limited knowledge. Here, we used the rat mandibular first and second molars as models to perform single-cell RNA sequencing (scRNA-seq) analysis to investigate cell identity and driver genes related to dental mesenchymal cell differentiation during the late bell hard tissue formation stage. We identified seven main cell types and investigated the heterogeneity of mesenchymal cells. Subsequently, we identified novel cell marker genes, including Pclo in dental follicle cells, Wnt10a in pre-odontoblasts, Fst and Igfbp2 in periodontal ligament cells, and validated the expression of Igfbp3 in the apical pulp. The dynamic model revealed three differentiation trajectories within mesenchymal cells, originating from two types of dental follicle cells and apical pulp cells. Apical pulp cell differentiation is associated with the genes Ptn and Satb2, while dental follicle cell differentiation is associated with the genes Tnc, Vim, Slc26a7, and Fgfr1. Cluster-specific regulons were analyzed by pySCENIC. In addition, the odontogenic function of driver gene TNC was verified in the odontoblastic differentiation of human dental pulp stem cells. The expression of osteoclast differentiation factors was found to be increased in macrophages of the mandibular first molar. Our results revealed the cell heterogeneity of molars in the late bell stage and identified driver genes associated with dental mesenchymal cell differentiation. These findings provide potential targets for diagnosing dental hard tissue diseases and tooth regeneration. Show less
📄 PDF DOI: 10.1186/s12915-024-01996-w
FGFR1
Xixi Li, Yuka Ichiba, Takuya Watanabe +8 more · 2024 · NPJ science of food · Nature · added 2026-04-24
In a series of studies on blood-brain barrier transportable peptides, a soybean dipeptide, Tyr-Pro, penetrated the mouse brain parenchyma after oral intake and improved short and long memory impairmen Show more
In a series of studies on blood-brain barrier transportable peptides, a soybean dipeptide, Tyr-Pro, penetrated the mouse brain parenchyma after oral intake and improved short and long memory impairment in acute Alzheimer's model mice. Here, we aimed to clarify the anti-dementia effects of this peptide administered to SAMP8 mice prior to dementia onset. At the end of the 25-week protocol in 16-week-old SAMP8 mice, Tyr-Pro (10 mg/kg/day) significantly improved the reduced spatial learning ability compared with that in the control and amino acid (Tyr + Pro) groups as indicated by the results of Morris water maze tests conducted for five consecutive days. The hippocampus and cortex regions of SAMP8 harvested after the test showed lower amyloid ß (Aß) accumulation in the Tyr-Pro group than those in the control and amino acid groups. Consistent with the lower level of Aß, decreased expression of ß-secretase (BACE1) and markedly increased expression (4-times higher) of insulin degrading enzyme (IDE) were obtained compared to those in the control group. Collectively, we demonstrated that long-term daily intake of the dipeptide Tyr-Pro in SAMP8 mice may be sufficient for maintaining cognitive ability by preventing excess Aß accumulation through downregulated BACE1 and particularly upregulated IDE. Show less
📄 PDF DOI: 10.1038/s41538-024-00360-0
BACE1
Junming Huang, BoWen Li, Huangwei Wei +4 more · 2024 · Scientific reports · Nature · added 2026-04-24
Parkinson's disease (PD) is a progressive neurodegenerative disease whose etiology is attributed to development of Lewy bodies and degeneration of dopaminergic neurons in the substantia nigra (SN). Cu Show more
Parkinson's disease (PD) is a progressive neurodegenerative disease whose etiology is attributed to development of Lewy bodies and degeneration of dopaminergic neurons in the substantia nigra (SN). Currently, there are no definitive diagnostic indicators for PD. In this study, we aimed to identify potential diagnostic biomarkers for PD and analyzed the impact of immune cell infiltrations on disease pathogenesis. The PD expression profile data for human SN tissue, GSE7621, GSE20141, GSE20159, GSE20163 and GSE20164 were downloaded from the Gene Expression Omnibus (GEO) database for use in the training model. After normalization and merging, we identified differentially expressed genes (DEGs) using the Robust rank aggregation (RRA) analysis. Simultaneously, DEGs after batch correction were identified. Gene interactions were determined through venn Diagram analysis. Functional analyses and protein-protein interaction (PPI) networks were used to the identify hub genes, which were visualized through Cytoscape. A Lasso Cox regression model was employed to identify the potential diagnostic genes. The GSE20292 dataset was used for validation. The proportion of infiltrating immune cells in the samples were determined via the CIBERSORT method. Sixty-two DEGs were screened in this study. They were found to be enriched in nerve conduction, dopamine (DA) metabolism, and DA biosynthesis Gene Ontology (GO) terms. The PPI network and Lasso Cox regression analysis revealed seven potential diagnostic genes, namely SLC18A2, TAC1, PCDH8, KIAA0319, PDE6H, AXIN1, and AGTR1, were subsequently validated in peripheral blood samples obtained from healthy control (HC) and PD patients, as well as in the GSE20292 dataset. The results revealed the exceptional sensitivity and specificity of these genes in PD diagnosis and monitoring. Moreover, PD patients exhibited a higher number of plasma cells, compared to HC individuals. The SLC18A2, TAC1, PCDH8, KIAA0319, PDE6H, AXIN1, and AGTR1 are potential diagnostic biomarkers for PD. Our findings also reveal the essential roles of immune cell infiltration in both disease onset and trajectory. Show less
📄 PDF DOI: 10.1038/s41598-024-52276-0
AXIN1
Alvina Deka, Naveen Kumar, Swapnava Basu +10 more · 2024 · The EMBO journal · Nature · added 2026-04-24
Dendritic cell (DC) dysfunction is known to exacerbate intestinal pathologies, but the mechanisms compromising DC-mediated immune regulation in this context remain unclear. Here, we show that intestin Show more
Dendritic cell (DC) dysfunction is known to exacerbate intestinal pathologies, but the mechanisms compromising DC-mediated immune regulation in this context remain unclear. Here, we show that intestinal dendritic cells from a mouse model of experimental colitis exhibit significant levels of noncanonical NF-κB signaling, which activates the RelB:p52 heterodimer. Genetic inactivation of this pathway in DCs alleviates intestinal pathologies in mice suffering from colitis. Deficiency of RelB:p52 diminishes transcription of Axin1, a critical component of the β-catenin destruction complex, reinforcing β-catenin-dependent expression of Raldh2, which imparts tolerogenic DC attributes by promoting retinoic acid synthesis. DC-specific impairment of noncanonical NF-κB signaling leads to increased colonic numbers of Tregs and IgA+ B cells, which promote luminal IgA production and foster eubiosis. Experimentally introduced β-catenin haploinsufficiency in DCs with deficient noncanonical NF-κB signaling moderates Raldh2 activity, reinstating colitogenic sensitivity in mice. Finally, inflammatory bowel-disease patients also display a deleterious noncanonical NF-κB signaling signature in intestinal DCs. In sum, we establish how noncanonical NF-κB signaling in dendritic cells can subvert retinoic acid synthesis to fuel intestinal inflammation. Show less
📄 PDF DOI: 10.1038/s44318-024-00182-6
AXIN1
Anja Pammer, Anna Obermayer, Julia T Stadler +6 more · 2024 · Cardiovascular diabetology · BioMed Central · added 2026-04-24
Cardiovascular disease represents a significant risk factor for mortality in individuals with type 2 diabetes mellitus (T2DM). High-density lipoprotein (HDL) is believed to play a crucial role in main Show more
Cardiovascular disease represents a significant risk factor for mortality in individuals with type 2 diabetes mellitus (T2DM). High-density lipoprotein (HDL) is believed to play a crucial role in maintaining cardiovascular health through its multifaceted atheroprotective effects and its capacity to enhance glycemic control. The impact of dietary interventions and intermittent fasting (IF) on HDL functionality remains uncertain. The objective of this study was to assess the effects of dietary interventions and IF as a strategy to safely improve glycemic control and reduce body weight on functional parameters of HDL in individuals with T2DM. Before the 12-week intervention, all participants (n = 41) of the INTERFAST-2 study were standardized to a uniform basal insulin regimen and randomized to an IF or non-IF group. Additionally, all participants were advised to adhere to dietary recommendations that promoted healthy eating patterns. The IF group (n = 19) followed an alternate-day fasting routine, reducing their calorie intake by 75% on fasting days. The participants' glucose levels were continuously monitored. Other parameters were measured following the intervention: Lipoprotein composition and subclass distribution were measured by nuclear magnetic resonance spectroscopy. HDL cholesterol efflux capacity, paraoxonase 1 (PON1) activity, lecithin cholesterol acyltransferase (LCAT) activity, and cholesterol ester transfer protein (CETP) activity were assessed using cell-based assays and commercially available kits. Apolipoprotein M (apoM) levels were determined by ELISA. Following the 12-week intervention, the IF regimen significantly elevated serum apoM levels (p = 0.0144), whereas no increase was observed in the non-IF group (p = 0.9801). ApoM levels correlated with weight loss and fasting glucose levels in the IF group. Both groups exhibited a robust enhancement in HDL cholesterol efflux capacity (p < 0.0001, p = 0.0006) after 12 weeks. Notably, only the non-IF group exhibited significantly elevated activity of PON1 (p = 0.0455) and LCAT (p = 0.0117) following the 12-week intervention. In contrast, the changes observed in the IF group did not reach statistical significance. A balanced diet combined with meticulous insulin management improves multiple metrics of HDL function. While additional IF increases apoM levels, it does not further enhance other aspects of HDL functionality. The study was registered at the German Clinical Trial Register (DRKS) on 3 September 2019 under the number DRKS00018070. Show less
📄 PDF DOI: 10.1186/s12933-024-02426-5
CETP
Hari K Krishnamurthy, Imbaasree Rajavelu, Swarnkumar Reddy +7 more · 2024 · Cureus · added 2026-04-24
Background  The study aims to assess the association of apolipoprotein E (APOE) gene polymorphisms with serological lipid and inflammatory markers to determine their potential role in predicting the r Show more
Background  The study aims to assess the association of apolipoprotein E (APOE) gene polymorphisms with serological lipid and inflammatory markers to determine their potential role in predicting the risk of cardiovascular diseases (CVDs) and Alzheimer's disease (AD).  Methodology  A total of 915 individuals underwent testing for lipid and inflammatory biomarkers at Vibrant America Clinical Laboratory. Clinical data, blood lipid and inflammatory profiles, and APOE genotyping were analyzed using polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP).  Results Compared to the E3/E3 genotype, individuals with E2/E3 genotypes showed higher levels of high-density lipoprotein (HDL), triglycerides, apolipoprotein A (APOA), high-sensitivity C-reactive protein (hs-CRP), and myeloperoxidase (MPO). E2/E4 genotype carriers had higher levels of HDL, triglycerides, Lp(a), and N-terminal pro b-type natriuretic peptide (BNPNT). E3/E4 genotypes were associated with elevated levels of total cholesterol, LDL, Lp(a), hs-CRP, small-density low-density lipoprotein (SDLDL), oxidized LDL (OXLDL), MPO, LDL-CAL, PLAC, and APOB. The E4/E4 group displayed higher concentrations of total cholesterol, LDL, APOB, Lp(a), hs-CRP, SDLDL, OXLDL, MPO, LDLCAL, and PLAC compared to E3/E3 carriers. These findings highlight the potential atherogenic effect of the ε4 allele and the protective effect of the ε2 allele based on lipid and inflammatory marker profiles.  Conclusions This study provides strong evidence linking APOE gene polymorphism to abnormal serum lipid and inflammatory profiles. Individuals carrying the ε4 alleles exhibited dysregulated lipid metabolism and abnormal inflammatory markers, increasing their risk of CVD and AD. Early detection and prompt diagnosis are crucial for implementing therapeutic, dietary, and lifestyle interventions to mitigate risks and prevent or delay lipid and inflammation-related disorders. Show less
📄 PDF DOI: 10.7759/cureus.60721
APOB
Lawrence G Welch, Nadine Muschalik, Sean Munro · 2024 · Journal of cell science · added 2026-04-24
Golgi-resident enzymes remain in place while their substrates flow through from the endoplasmic reticulum to elsewhere in the cell. COPI-coated vesicles bud from the Golgi to recycle Golgi residents t Show more
Golgi-resident enzymes remain in place while their substrates flow through from the endoplasmic reticulum to elsewhere in the cell. COPI-coated vesicles bud from the Golgi to recycle Golgi residents to earlier cisternae. Different enzymes are present in different parts of the stack, and one COPI adaptor protein, GOLPH3, acts to recruit enzymes into vesicles in part of the stack. Here, we used proximity biotinylation to identify further components of intra-Golgi vesicles and found FAM114A2, a cytosolic protein. Affinity chromatography with FAM114A2, and its paralogue FAM114A1, showed that they bind to Golgi-resident membrane proteins, with membrane-proximal basic residues in the cytoplasmic tail being sufficient for the interaction. Deletion of both proteins from U2OS cells did not cause substantial defects in Golgi function. However, a Drosophila orthologue of these proteins (CG9590/FAM114A) is also localised to the Golgi and binds directly to COPI. Drosophila mutants lacking FAM114A have defects in glycosylation of glue proteins in the salivary gland. Thus, the FAM114A proteins bind Golgi enzymes and are candidate adaptors to contribute specificity to COPI vesicle recycling in the Golgi stack. Show less
📄 PDF DOI: 10.1242/jcs.262160
FAM114A2
Hui-Li Sun, Qiang-Sheng Zhang, Zhong-Hao Wang +2 more · 2024 · Chemical science · Royal Society of Chemistry · added 2026-04-24
In this study, Förster resonance energy transfer (FRET) is harnessed to construct a novel stimulus-responsive long-persistent luminescence (LPL) system. Two organic molecules, DPSD and DPOD, were init Show more
In this study, Förster resonance energy transfer (FRET) is harnessed to construct a novel stimulus-responsive long-persistent luminescence (LPL) system. Two organic molecules, DPSD and DPOD, were initially found to have no afterglow under ambient conditions, but exhibited prolonged afterglow upon friction with paper, showing a significantly promoted transition of triplet excited states. Substituting paper with α-cellulose (the main composition of paper) reveals a novel host-guest long afterglow system and allows for a deeper investigation of the above paper-promoted LPL phenomenon. The activation of the LPL effect was achieved by matrixing these components through a grinding process, capitalizing on the efficient FRET from the host to the guest owing to the appropriate energy level match, and the robust intersystem crossing (ISC) capability of the guest. This model presents a new matrix strategy to achieve efficient LPL by a facile, low cost and easy-to-handle process. Furthermore, we successfully implemented anti-counterfeiting, encryption and decryption, decoration, and water/heat stimulus-responsive applications of the obtained materials. These advancements bring LPL materials one step closer to practical commercialization. Show less
📄 PDF DOI: 10.1039/d4sc04746j
LPL
Yingzheng Xu, Hannah Hillman, Michael Chang +2 more · 2024 · bioRxiv : the preprint server for biology · Cold Spring Harbor Laboratory · added 2026-04-24
Macrophages are essential immune cells present in all tissues, and are vital for maintaining tissue homeostasis, immune surveillance, and immune responses. Considerable efforts have identified shared Show more
Macrophages are essential immune cells present in all tissues, and are vital for maintaining tissue homeostasis, immune surveillance, and immune responses. Considerable efforts have identified shared and tissue-specific gene programs for macrophages across organs during homeostasis. This information has dramatically enhanced our understanding of tissue-restricted macrophage programming and function. However, few studies have addressed the overlapping and tissue-specific responses of macrophage subsets following inflammatory responses. One subset of macrophages that has been observed across several studies, lipid-associated macrophages (LAMs), have gained interest due to their unique role in lipid metabolism and potential as a therapeutic target. LAMs have been associated with regulating disease outcomes in metabolically related disorders including atherosclerosis, obesity, and nonalcoholic fatty liver disease (NAFLD). In this study, we utilized single-cell RNA sequencing (scRNAseq) data to profile LAMs across multiple tissues and sterile inflammatory conditions in mice and humans. Integration of data from various disease models revealed that LAMs share a set of conserved transcriptional profiles, including Show less
📄 PDF DOI: 10.1101/2024.09.24.614807
LPL
Zehua Wen, Lei Wang, Shi-Wei Liu +3 more · 2024 · Cells · MDPI · added 2026-04-24
Wnt signaling is involved in embryo development and cancer. The binding between the DIX domains of Axin1/2, Dishevelled1/2/3, and Coiled-coil-DIX1 is essential for Wnt/β-catenin signaling. Structural Show more
Wnt signaling is involved in embryo development and cancer. The binding between the DIX domains of Axin1/2, Dishevelled1/2/3, and Coiled-coil-DIX1 is essential for Wnt/β-catenin signaling. Structural and biological studies have revealed that DIX domains are polymerized through head-to-tail interface interactions, which are indispensable for activating β-catenin Wnt signaling. Although different isoforms of Dvl and Axin proteins display both redundant and specific functions in Wnt signaling, the specificity of DIX-mediated interactions remains unclear due to technical challenges. Using AlphaFold2(AF2), we predict the structures of 6 homodimers and 22 heterodimers of DIX domains without templates and compare them with the reported X-ray complex structures. PRODIGY is used to calculate the binding affinities of these DIX complexes. Our results show that the Axin2 DIX homodimer has a stronger binding affinity than the Axin1 DIX homodimer. Among Dishevelled (Dvl) proteins, the binding affinity of the Dvl1 DIX homodimer is stronger than that of Dvl2 and Dvl3. The Coiled-coil-DIX1(Ccd1) DIX homodimer shows weaker binding than the Axin1 DIX homodimer. Generally, heterodimer interactions tend to be stronger than those of homodimers. Our findings provide insights into the mechanism of the Wnt signaling pathway and highlight the potential of AF2 and PRODIGY for studying protein-protein interactions in signaling pathways. Show less
📄 PDF DOI: 10.3390/cells13191646
AXIN1
Daimin Xiang, Junyu Liu, Yichuan Wang +13 more · 2024 · Advanced science (Weinheim, Baden-Wurttemberg, Germany) · Wiley · added 2026-04-24
Hepatocellular carcinoma (HCC) is one of the leading causes of cancer-related death worldwide and lacks biomarkers for personalized therapy. Herein, it is reported that MCB1 could be a novel oncofetal Show more
Hepatocellular carcinoma (HCC) is one of the leading causes of cancer-related death worldwide and lacks biomarkers for personalized therapy. Herein, it is reported that MCB1 could be a novel oncofetal protein that is upregulated in the preneoplastic lesions and serum of early HCC patients. Functional studies reveal that MCB1 modulated p53 protein degradation to promote T-IC generation and drive HCC initiation. Furthermore, the MCB1/p53 axis is shown to determine the responses of hepatoma cells to conventional chemotherapeutics and predict transcatheter arterial chemoembolization (TACE) benefits in patients. Importantly, MCB1 can mediate sorafenib/lenvatinib resistance by downregulating two essential drug targets fibroblast growth factor receptor 1 (FGFR1) and vascular endothelial growth factor receptor 3 (VEGFR3) expression in a proteasome-dependent manner. Patient-derived tumor organoids (PDOs), patient-derived xenografts (PDXs), and patient cohorts analysis suggested that MCB1 levels in HCCs may determine the distinct responses to conventional therapeutics and targeted drugs. Furthermore, treatment of targeted drugs-resistant HCC with adeno-associated virus (AAV) targeting MCB1 or a proteasome inhibitor restores targeted drug response, suggesting their clinical significance in HCC combinational therapy. In conclusion, these findings demonstrate that MCB1 could act as a driver for HCC initiation, a contributor to drug resistance, and a biomarker for individualized HCC therapy. Show less
📄 PDF DOI: 10.1002/advs.202401228
FGFR1
Anna Wolska, Maureen Sampson, Rafael Zubirán +4 more · 2024 · Frontiers in cardiovascular medicine · Frontiers · added 2026-04-24
The triglyceride (TG) content of low-density lipoprotein (LDL-TG) has been shown to be more predictive of atherosclerotic cardiovascular disease (ASCVD) events than the cholesterol content of LDL (LDL Show more
The triglyceride (TG) content of low-density lipoprotein (LDL-TG) has been shown to be more predictive of atherosclerotic cardiovascular disease (ASCVD) events than the cholesterol content of LDL (LDL-C). The goal of our study was to develop an equation for estimating LDL-TG ( Using least-square regression analysis, the following Like LDL-C, LDL-TG can also be calculated from the results of the standard lipid panel. Compared to estimated LDL-C, Show less
📄 PDF DOI: 10.3389/fcvm.2024.1452869
APOB
Feng Xiong, Kai Shen, Di Long +8 more · 2024 · Immunity & ageing : I & A · BioMed Central · added 2026-04-24
Systemic lupus erythematosus (SLE) is an autoimmune disorder that commonly affects the skin, kidneys, joints, and various other systemic tissues, with its development intricately linked to the process Show more
Systemic lupus erythematosus (SLE) is an autoimmune disorder that commonly affects the skin, kidneys, joints, and various other systemic tissues, with its development intricately linked to the process of immunosenescence. Quercetin (QC), a phytochemical that occurs naturally, demonstrates many different biological capabilities, such as antibacterial, antioxidant, and anti-inflammatory activities. Our investigation found that QC effectively reduced kidney damage and relieved mesenteric lymph nodes (mLNs) swelling in MRL/lpr lupus mice. Moreover, QC has been found to decrease the number of senescent follicular helper T (Tfh) cells, a pivotal kind of T cells that contribute to the progression of SLE. In vitro, QC exhibited the capacity to modulate mRNA expression levels, with the downregulation of IL-6, IL21-AS1, IL-27, BCL6, and BCL2L12, and the upregulation of FOXP1 and BIM. This modulation resulted in the suppression of Tfh cells differentiation and the enhancement of apoptosis in senescent CD4 Show less
📄 PDF DOI: 10.1186/s12979-024-00474-9
IL27
Kumju Youn, Mira Jun · 2024 · International journal of molecular sciences · MDPI · added 2026-04-24
Amyloid β protein (Aβ) deposition has been implicated as the molecular driver of Alzheimer's disease (AD) progression. The modulation of the formation of abnormal aggregates and their post-translation Show more
Amyloid β protein (Aβ) deposition has been implicated as the molecular driver of Alzheimer's disease (AD) progression. The modulation of the formation of abnormal aggregates and their post-translational modification is strongly suggested as the most effective approach to anti-AD. Beta-site APP-cleaving enzyme 1 (BACE1) acts upstream in amyloidogenic processing to generate Aβ, which rapidly aggregates alone or in combination with acetylcholinesterase (AChE) to form fibrils. Accumulated Aβ promotes BACE1 activation via glycogen synthase kinase-3β (GSK-3β) and is post-translationally modified by glutaminyl cyclase (QC), resulting in increased neurotoxicity. A novel multi-target inhibitor as a potential AD agent was identified using an in silico approach and experimental validation. Show less
📄 PDF DOI: 10.3390/ijms251910507
BACE1