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⚗️ 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 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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)
📌 LLM 852
▸ LLM (77)
bdnf (116)neuroprotection (67)depression (63)neuroinflammation (53)neurotrophic factor (49)alzheimer's disease (44)oxidative stress (40)anxiety (32)inflammation (28)apoptosis (22)cognitive impairment (20)biomarkers (16)neurodegeneration (16)gene expression (15)parkinson's disease (15)hippocampus (15)cognitive decline (15)brain (15)gut microbiota (13)schizophrenia (13)microglia (11)therapeutic target (11)neurogenesis (11)biomarker (10)creb (9)signaling pathway (9)huntington's disease (8)animal study (8)bdnf/trkb (8)neurodegenerative disease (7)neuron (7)hpa axis (5)cerebral ischemia (5)autophagy (4)in vitro (4)nrf2 (4)mitochondrial dysfunction (4)hiv (4)synaptic remodeling (3)mapk (3)longitudinal study (3)gut (2)preclinical study (2)synaptogenesis (2)cerebrospinal fluid (2)mtor (2)plasma (2)epigenetic mechanisms (2)multiple sclerosis (2)dna damage (2)erk1/2 (2)nf-κb (2)amyloid clearance (1)mechanotransduction (1)neurotrophic effects (1)cholinergic neurotransmission (1)alzheimer (1)neuropsychiatric disorder (1)feature selection (1)brain injury (1)neural stem cell (1)neuroinflammatory signaling (1)review (1)microbial metabolite (1)friedreich's ataxia (1)nrf2/are (1)non-alcoholic steatohepatitis (1)clinical observation (1)cerebellar granule neurons (1)pi3k/akt (1)exposome (1)neurocognitive performance (1)cohort study (1)stress response (1)erk/creb (1)epigenetic regulation (1)neuroendocrine signaling (1)
🦠 Diseases 57
▸ Diseases — Other (15)
neurodegenerative diseases (15)neurodegenerative disorder (10)neurodegenerative disorders (10)diabetes (5)cancer (3)type 2 diabetes (2)lung cancer (2)alzheimer disease (2)type 2 diabetes mellitus (2)type 3 diabetes (1)neurodegenerative (1)non-small cell lung cancer (1)diabetes mellitus (1)anticancer (1)gestational diabetes mellitus (1)
⚙️ Mechanisms 56
▸ Mechanisms — Other (43)
signaling pathways (6)signaling (4)mitochondrial dynamics (3)epigenetics (2)mitochondrial (2)bdnf signaling (2)mitochondrial biogenesis (1)epigenetic (1)crf signaling (1)pi3k/akt signaling pathway (1)oxidative dna damage (1)mapk/erk/jnk signaling pathways (1)bdnf/trkb signaling (1)biological signaling pathways (1)mitochondrial fatty acid β-oxidation (1)mitochondrial fusion (1)wnt signaling (1)nf-kb signaling (1)neural signaling (1)akt signaling pathway (1)mitochondrial quality (1)pi3k/akt/mtor signaling pathway (1)mitochondrial functions (1)camp/pka signaling pathway (1)cholinergic signaling (1)neuroplastic signaling (1)cellular signaling (1)neurotrophin signaling (1)metabolite signaling (1)serotonergic signaling (1)mitochondria (1)epigenetic modifications (1)endocrine signaling (1)insulin signaling (1)ng2 signaling (1)pacap signaling (1)pi3k/akt/bdnf signaling (1)bdnf-trkb signaling pathway (1)camp signaling (1)mitochondrial energy metabolism (1)pain signaling (1)calcium signaling (1)neuroimmune signaling (1)
🎯 Targets 22
▸ Targets — Other (13)
micrornas (4)microrna (3)maternal separation (2)lncrna (2)maternal immune activation (2)maternal exercise (2)microrna-34a (1)maternal (1)mtor pathway (1)rna (1)dna methylation (1)mrna (1)fibrinolytic enzymes (1)
🧬 Activities 20
▸ Activities — Other (10)
antioxidant (11)sensory nerves (1)antioxidant activity (1)pet imaging (1)in vivo imaging (1)bioluminescence imaging (1)sensory neurotoxicity (1)neuroimaging (1)antioxidants (1)antioxidant properties (1)
🔗 Ligands 19
▸ Ligands — Other (12)
ketamine (4)monoamine deficiency (2)monoaminergic (2)dopamine (2)dopaminergic neurons (2)dopaminergic neuron (1)histaminergic transmission (1)esketamine (1)monoamine (1)dopaminergic (1)methamphetamine (1)histamine (1)
🧠 Concepts 5
▸ Concepts — Other (4)
metabolism (2)immunometabolism (1)brain metabolism (1)energy metabolism (1)
💊 Drugs 4
▸ Drugs — Other (3)
quercetin (2)oxaliplatin (1)paclitaxel (1)

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Mitochondrial fusion targeted supramolecular peptide hydrogel for gut neuroprotection.

Wei Sun, Lu Han, Yanyu Bi +6 more · 2026 · Biomaterials · Elsevier · added 2026-04-24
Oxidative stress-induced enteric neuropathy is a key driver of slow-transit constipation (STC), primarily through disrupted mitochondrial dynamics and neuronal degeneration. To address this, we develo Show more
Oxidative stress-induced enteric neuropathy is a key driver of slow-transit constipation (STC), primarily through disrupted mitochondrial dynamics and neuronal degeneration. To address this, we developed a bioengineered oral delivery system that supports neuronal recovery and actively enhances mitochondrial membrane fusion. A self-assembling amphiphilic peptide (GFF) was synthesized to encapsulate rhein (RH), a natural anthraquinone with antioxidant, anti-inflammatory, and microbiota-regulating properties. A BDNF-derived tetrapeptide was integrated to further potentiate neurotrophic effects. These components were co-assembled into a therapeutic nanofiber (RFI), which was embedded in a chitosan/sodium alginate hydrogel for sustained oral delivery. In vitro and in vivo studies demonstrated that RFI significantly improved neuronal viability and gastrointestinal motility. Mechanistic investigations revealed that RFI is associated with activation of the AKT signaling pathway and enhancement of mitochondrial membrane fusion, collectively contributing to the restoration of mitochondrial network integrity and neuronal protection. This multifunctional nanoplatform offers a promising therapeutic approach to STC by combining targeted delivery with direct modulation of mitochondrial function. Show less
no PDF DOI: 10.1016/j.biomaterials.2026.124061
BDNF bioengineered delivery system gut health mitochondrial dynamics mitochondrial fusion neuronal degeneration neuroprotection oxidative stress