While essential trace minerals are known to influence DNA methylation (DNAm), molybdenum's (Mo) role in epigenetic regulation remains largely unexplored. This study examined associations between Mo st Show more
While essential trace minerals are known to influence DNA methylation (DNAm), molybdenum's (Mo) role in epigenetic regulation remains largely unexplored. This study examined associations between Mo status and DNAm of the brain-derived neurotrophic factor (BDNF) gene, a critical regulator of neurogenesis, in children aged 9-11 years, focusing on 107 CpG sites across BDNF and its antisense transcript (BDNF-AS).BDNF and BDNF-AS methylation was analyzed in blood samples from 72 children randomly selected from a cohort of 292 participants. Dietary Mo intake was estimated from food records, and creatinine-adjusted urinary Mo levels were quantified. Higher urinary molybdenum was significantly associated with decreased methylation at five BDNF 5'UTR sites (p<.05) and increased methylation of BDNF-AS (p = .0001), consistent with enhanced BDNF transcriptional activity. African American children exhibited lower urinary Mo excretion than European American children, suggesting greater retention, and showed cortisol-associated increases in BDNF methylation not observed in European American children.These findings demonstrate associations between molybdenum status and DNA methylation patterns at the BDNF locus in children. While functional validation through BDNF protein measurement is needed, results suggest molybdenum may influence neurotrophin gene regulation through epigenetic mechanisms, highlighting the importance of trace mineral nutrition during neurodevelopment. Show less
With the aim of identifying key proteins that play a role in the disorder tinnitus, interactions between proteins involved in thalamo-amygdala signaling under conditions of normal hearing (NH), acoust Show more
With the aim of identifying key proteins that play a role in the disorder tinnitus, interactions between proteins involved in thalamo-amygdala signaling under conditions of normal hearing (NH), acoustic stimulation (AS), and tinnitus (Tin) were studied. Three gene lists compiled from the GeneCards database using keywords were characterized by analyses of overlap, protein-protein interaction (PPI) networks, and by protein-enrichment analysis. Key proteins were selected on the basis of the degree and combined score value of the corresponding PPI network. In the NH process, BDNF, CASP3, and PVALB were identified as high-degree proteins (HDPs). In the AS process, BDNF, PVALB, and DLG4 are the top three HDPs; in the Tin process, these are BDNF, APP, and TNF. In the Tin process, key proteins appear that differ pre- and postsynaptically from those detectable in NH or AS. The glucocorticoid receptor NR3C1 and its interaction with FKBP5, a glucocorticoid receptor-induced co-chaperone, appear to be of particular importance for the emotional aspects of tinnitus. In tinnitus, the HDPs, together with their high-score interaction proteins, indicate processes of chronic neurodegeneration and of changes in transcription, intercellular communication, and in the survival and growth of neurons. Show less
Findings of previous studies on associations between dairy consumption and metabolic health status were inconsistent. This study aimed to assess the link between consumption of dairy foods and metabol Show more
Findings of previous studies on associations between dairy consumption and metabolic health status were inconsistent. This study aimed to assess the link between consumption of dairy foods and metabolic health status, brain-derived neurotrophic factor (BDNF) and adropin levels in adults. Cross-sectional. An observational study in Isfahan, Iran. Adults (n=527) selected by multistage cluster random sampling. Dietary intakes were assessed via a validated 168-item food frequency questionnaire. Anthropometric indices, blood pressure and biochemical parameters were assessed. The criteria proposed by Wildman Participants had a mean age of 42.66 years (45.7% women). Moderate consumption of total dairy was, respectively, linked to 58% lower odds of MU (OR Moderate consumption of total and low-fat dairy was associated with lower odds of being metabolically unhealthy in Iranian adults, but high-fat dairy intake was not. Hypertension was less common among individuals with higher dairy intake. No association was found between dairy intake and serum levels of BDNF or adropin. Show less
Endoplasmic reticulum (ER) stress plays a significant role in chronic pain, but its potential involvement in chronic itch remains largely unexplored and poorly understood. In the current study, we inv Show more
Endoplasmic reticulum (ER) stress plays a significant role in chronic pain, but its potential involvement in chronic itch remains largely unexplored and poorly understood. In the current study, we investigated whether ER stress signaling in keratinocytes contributes to the pathogenesis of chronic itch. Our behavioral tests showed that the ER stress inhibitor 4-PBA attenuated itch-related behaviors in both acute and chronic itching mouse models, and reduced compound 48/80 and serotonin-induced activity of dorsal root ganglion (DRG) neurons. qPCR and western blotting revealed that the ER stress-related proteins and Lipocalin-2 (LCN2) were significantly elevated in the affected skin under chronic itch conditions and in cultured keratinocyte HaCaT cells and mice skin keratinocytes. The ELISA test showed that the level of LCN2 increased significantly in plasma but not in DRG tissue, from both acetone-ether-water (AEW) induced dry skin and imiquimod (IMQ) induced psoriasis model mice. Current clamp recording demonstrated that LCN2 induced hyperexcitability in dorsal root ganglia neurons, which could be abolished by HS024, the inhibitor of melanocortin receptor 4 (MC4R). In addition, pharmacological inhibition of transient receptor potential vanilloid 1 (TRPV1) or TRPV1 knockout blocked LCN2-induced hyperexcitability in DRG neurons. In conclusion, this study demonstrated that keratinocyte ER stress is involved in chronic itch genesis by releasing LCN2, which sensitized primary sensory neurons via TRPV1. These findings suggested that inhibition of ER stress in keratinocytes could be a promising therapeutic strategy for treating chronic itch. Show less
Chronic pain is a highly prevalent and disabling condition with a well-documented female predominance in incidence, severity and persistence. These sex differences are driven by sexually dimorphic neu Show more
Chronic pain is a highly prevalent and disabling condition with a well-documented female predominance in incidence, severity and persistence. These sex differences are driven by sexually dimorphic neuroimmune mechanisms rather than psychosocial factors alone. This systematic review was conducted to comprehensively synthesize human clinical and translational evidence on sex-specific neuroimmune and glial cell pathways underlying chronic pain. Scientific literature was systematically searched from database inception to December 2025 across multiple biomedical databases to identify relevant clinical and translational studies. Across pain conditions, convergent evidence demonstrated that chronic pain mechanisms diverge by sex at cellular and molecular levels. Male-predominant pathways were characterized by microglial activation, particularly P2X4 receptor-mediated signaling and brain-derived neurotrophic factor-dependent neuronal disinhibition, supported by neuroimaging, transcriptomic, and pharmacological data. In contrast, female-predominant mechanisms involved adaptive immune processes, including CD4 Show less
Aging disrupts the neurovascular unit (NVU) and blood-brain barrier (BBB), elevates glial inflammatory tone, and compromises hippocampal memory. Environmental enrichment (EE)-a multimodal, lifestyle-b Show more
Aging disrupts the neurovascular unit (NVU) and blood-brain barrier (BBB), elevates glial inflammatory tone, and compromises hippocampal memory. Environmental enrichment (EE)-a multimodal, lifestyle-based intervention-improves cognition, but its association with BBB/NVU and FNDC5/irisin-related signaling in aging remains incompletely understood. Aged male C57BL/6J mice (21 months old) were housed under EE or standard conditions for 11 weeks. Hippocampal-dependent spatial working memory was assessed using the radial eight-arm maze, and neuronal (NeuN), glial (Iba1, GFAP), and BBB/NVU markers (AQP4 endfoot polarity, occludin, ZO-1, PECAM-1, microvessel length/density) were quantified. FNDC5/irisin-related signaling was evaluated by measuring PGC-1α, FNDC5/irisin, IGF-1, BDNF, Show less
Arterial thrombectomy (AT) is a cornerstone in the treatment of acute ischemic stroke (AIS) due to large vessel occlusion. However, the optimal therapeutic time window and the best management strategy Show more
Arterial thrombectomy (AT) is a cornerstone in the treatment of acute ischemic stroke (AIS) due to large vessel occlusion. However, the optimal therapeutic time window and the best management strategy for patients presenting beyond the conventional 4.5-hour timeframe remain areas of active investigation and debate. This retrospective cohort study aimed to analyze the effect of timing of AT on recovery in AIS. We retrospectively analyzed 117 AIS patients admitted between January 2021 and January 2023. Participants were categorized into 3 groups: early AT (onset-to-AT < 4.5 hours), late AT (onset-to-AT ≥ 4.5 hours), and late AT + intravenous thrombolysis (IT). Outcomes compared included clinical efficacy, National Institutes of Health Stroke Scale (NIHSS) scores, serum levels of neurotrophic factors, brain-derived neurotrophic factor, vascular endothelial growth factor, residual stenosis, vessel reocclusion, 3-month mortality, and 1-month complications. The total effective rate was higher in the early AT and late AT + IT groups than in the late AT group. Pretreatment NIHSS scores and serum neurological marker levels were comparable across all groups. After treatment, the early AT and late AT + IT groups showed significantly lower NIHSS scores, higher serum levels of neurological markers, and improved treatment efficiency compared to the late AT group. Prognosis-related markers also indicated better outcomes in these 2 groups. Additionally, complications such as mucocutaneous ecchymosis, gastrointestinal bleeding, and intracranial bleeding were significantly reduced in the early AT and late AT + IT groups. AT within 4.5 hours of stroke onset improves efficacy, reduces neurological injury, and decreases complications. For patients presenting beyond 4.5 hours, combining AT with IT achieves comparable therapeutic benefits. Show less
Peripheral nerve injuries (PNI) often lead to long-term functional impairment. Mesenchymal stem cells (MSCs) and cannabidiol (CBD) have shown anti-inflammatory and neuroprotective effects in vitro, wh Show more
Peripheral nerve injuries (PNI) often lead to long-term functional impairment. Mesenchymal stem cells (MSCs) and cannabidiol (CBD) have shown anti-inflammatory and neuroprotective effects in vitro, which may be relevant for PNI research. The aim of this study was to evaluate CBD-rich cannabis extract’s potential to induce anti-inflammatory and neurotrophic gene expression in equine adipose tissue-derived MSCs (EqAT-MSCs) in an inflammatory in vitro environment. The morphology and metabolic activity of EqAT-MSCs ( Show less
We investigated the relationship between heart failure etiology and lipoprotein subfractions, and to explore their associations with left ventricular dimension and function in heart failure with reduc Show more
We investigated the relationship between heart failure etiology and lipoprotein subfractions, and to explore their associations with left ventricular dimension and function in heart failure with reduced ejection fraction (HFrEF) patients. Cross-sectional investigation of serum lipoprotein subfractions from 205 HFrEF patients in the SMARTEX heart failure study. Serum levels of triglycerides, cholesterol, free cholesterol, phospholipids, lipoproteins (Apolipoproteins; A-1, A-2, and B), very-low-density (VLDL), intermediate-density (IDL), low-density (LDL), and high-density lipoprotein (HDL) were determined using Stable HFrEF patients [left ventricular ejection fraction (LVEF) ≤ 35%, NYHA class II-III], with ischemic (ICM, n = 119) or non-ischemic (NICM, n = 86) cardiomyopathy were studied. NICM patients had higher levels of 48 lipoproteins compared to ICM patients, including 29 LDL, 13 VLDL, and 6 HDL subfractions [p <0.05]. NICM patients had 22% higher cholesterol and 27% higher remnant cholesterol levels, with 24% more atherogenic ApoB containing subfractions (VLDL, IDL, LDL) (p <0.05). Heart failure etiology and statin treatment explained 23-24% of the variability in cholesterol, free cholesterol, and ApoB (p <0.001). Triglyceride content in some VLDL and LDL subfractions was weakly associated with left ventricular end-diastolic volume, end-diastolic diameter, ejection fraction, and S'. NICM patients had the highest atherosclerotic lipoprotein burden, attributed to elevated ApoB particles and partly due to less statin treatment. The triglyceride content of some VLDL and LDL subfractions was weakly associated with left ventricular structure and function. However, further research is needed to determine their prognostic significance before implementation into strategies for prevention and treatment. Show less
Alzheimer’s disease (AD) is a progressive neurodegenerative disorder thought to result from complex interactions between genetic and environmental risk factors. The APOE-ε4 allele is the strongest gen Show more
Alzheimer’s disease (AD) is a progressive neurodegenerative disorder thought to result from complex interactions between genetic and environmental risk factors. The APOE-ε4 allele is the strongest genetic contributor to late-onset AD, while a Western diet - high in saturated fats and refined sugars - is a major lifestyle-related risk factor associated with AD progression. However, how these two factors interact at an early stage of the disease remains unclear. In this study, we examined their combined impact on hippocampal synaptic transmission and plasticity in an AD mouse model and evaluated whether supplementation with d-serine, the key NMDAR co-agonist, could reverse the resulting deficits. To assess the combined effects of genetic and dietary risk factors on synaptic function, we crossed APP/PS1 mice with APOE-ε4 KI mice and generated four mouse lines: wild-type, APP/PS1, APOE-ε4, and APP/PS1/APOE-ε4. Hippocampal synaptic transmission and plasticity, NMDAR function and d- and l-serine levels were evaluated using a combination of electrophysiological recordings, pharmacological interventions and capillary electrophoresis in brain slices, under either control or Western diet conditions. A significant impairment of both basal excitatory synaptic transmission and long-term potentiation (LTP) was detected in APP/PS1 mice by 9 months of age. These deficits were significantly more pronounced in APP/PS1/APOE-ε4 mice. Notably, Western diet accelerated these impairments, with significant deficits already present at 7 months in both APOE-ε4 and APP/PS1/APOE-ε4 mice. Mechanistically, these impairments were associated with reduced d-serine availability and NMDAR hypofunction at CA3-CA1 synapses. This study provides direct evidence of a specific and synergistic interaction between the APOE-ε4 genotype and Western diet in advancing and exacerbating hippocampal synaptic dysfunction in an AD mouse model. These findings highlight d-serine/NMDAR signaling as a key mechanistic pathway through which genetic and environmental risk factors converge in early AD, and underscore the potential of targeting astrocytic d-serine biosynthetic pathways as a promising therapeutic strategy for APOE-ε4 carriers at risk for late-onset AD. Not applicable. The online version contains supplementary material available at 10.1186/s13195-026-01992-y. Show less
Diabetes accelerates atherosclerosis by driving persistent vascular inflammation. MicroRNA-155 (miR-155) is a post-transcriptional regulator of inflammatory genes, while suppressor of cytokine signali Show more
Diabetes accelerates atherosclerosis by driving persistent vascular inflammation. MicroRNA-155 (miR-155) is a post-transcriptional regulator of inflammatory genes, while suppressor of cytokine signaling 1 (Socs1) limits Janus kinase (JAK)/signal transducer and activator of transcription (STAT)-mediated cytokine responses. We explored how the imbalance between miR-155-5p and Socs1 contributes to atherosclerotic plaque progression in diabetes. Apolipoprotein E knockout (ApoE-/-) mice were studied in two settings: age-dependent atherosclerosis progression under non-diabetic conditions, and streptozotocin-induced diabetes to model accelerated atherosclerosis. Diabetic mice received a miR-155-5p inhibitor, a Socs1-expressing adenovirus, or respective controls. Lesion size, composition, and gene expression were analyzed. Cultured vascular smooth muscle cells (VSMCs) and macrophages were transfected with miR-155-5p mimic/inhibitor and Socs1 siRNA/plasmid to assess inflammatory responses, phenotypes, and efferocytosis under diabetic-like conditions. During atherosclerosis progression, vascular miR-155-5p inversely correlated with Socs1 and positively with lesion size, while Socs1 correlated negatively with plaque burden. In diabetic mice, miR-155-5p inhibition reduced lesion area, lipid/collagen and macrophage/VSMC ratios, pro-inflammatory cytokines, M1 macrophages and synthetic VSMC markers, while increasing Socs1, M2 and contractile VSMC genes. Socs1 gene transfer reproduced these effects by reducing miR-155-5p and Stat1 expression, and lesion size. In vitro, miR-155-5p mimic suppressed Socs1, activated STAT1 and inflammatory phenotypes in macrophages and VSMCs, whereas miR-155-5p inhibition had opposite effects. Socs1 silencing amplified inflammation, and its overexpression counteracted miR-155-5p actions. Moreover, miR-155-5p inhibition reduced soluble Mer receptor tyrosine kinase (MerTK) in plaques and macrophages, indicating improved efferocytosis, whereas the mimic promoted macrophage MerTK shedding and impaired apoptotic cell clearance. Reciprocal regulation between miR-155-5p and Socs1 influences vascular inflammation, phenotypic changes, and defective efferocytosis in a diabetic context. Targeting this axis may restore resolution mechanisms and enhance plaque stability in diabetes-associated vascular disease. The online version contains supplementary material available at 10.1186/s12933-026-03121-3. Show less
Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by social impairments, and repetitive and aggressive behaviors. The pathophysiology of ASD still remains unclear, while th Show more
Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by social impairments, and repetitive and aggressive behaviors. The pathophysiology of ASD still remains unclear, while the population with ASD is 1/36 in children in the USA in 2024. Evidence suggests a wide range of inconsistent changes in brain-derived neurotrophic factor (BDNF), the most important neurotrophin in the central nervous system, in ASD. The present systematic review investigated studies that examined BDNF levels in three main ASD-like models in rodents [induced by valproic acid (VPA) and propionic acid (PPA), and in the BTBR mouse strain] in accord with PRISMA guidelines and in PubMed database. Forty-two studies were included. Most studies used male rats/mice. The results showed ASD model induced by VPA often leads to decreased BDNF, although unchanged or increased BDNF levels were also reported. ASD model induced by PPA leads to both increased and decreased BDNF. BDNF changes in BTBR mouse strain were also inconsistent. We found that the type of molecular assay appears to be important in evaluating BDNF. Also, few evidence showed a role for postnatal day and sex difference in BDNF changes in ASD-like rodent models. In addition, some studies have shown the potential role of the brain region in BDNF changes in different ASD-like models. In conclusion, it was suggested that inconsistencies in BDNF changes in rodent models of ASD may be related to the type of the molecular assay, the brain region, ASD model, sex, or even the postnatal day. However, evidence is still insufficient. Show less
Dual-specificity phosphatase 6 (DUSP6) is a phosphatase specific for extracellular signal-regulated kinase (ERK). Dusp6-knockout mice are resistant to diet-induced hepatic steatosis, which appears to Show more
Dual-specificity phosphatase 6 (DUSP6) is a phosphatase specific for extracellular signal-regulated kinase (ERK). Dusp6-knockout mice are resistant to diet-induced hepatic steatosis, which appears to be linked to the downregulation of cytochrome P450 4 A (CYP4A); however, its mechanism remains unclear. This study aimed to elucidate how DUSP6 regulates CYP4A11 in human hepatocyte-lineage cells by focusing on forkhead box O1 (FOXO1). HepG2 and HuH-7 cells were challenged with palmitic acid and oleic acid to induce lipid accumulation while manipulating the expression of DUSP6, FOXO1, CYP4A11, ERK, and/or AKT. Lipid accumulation was reduced by DUSP6 knockdown, resulting in decreased CYP4A11 expression despite elevated phosphorylated ERK, AKT, and FOXO1. Inhibition of ERK increased lipid accumulation, while simultaneous inhibition of ERK and AKT decreased it. Knockdown of FOXO1 or induced expression of DUSP6 increased CYP4A11 expression and lipid accumulation, whereas induced expression of FOXO1 decreased them. Chromatin-immunoprecipitation showed that FOXO1 bound to CYP4A11 promoter. Immunoprecipitations revealed that DUSP6 bound to and anchored FOXO1 in the cytoplasm. These results indicate that DUSP6 interferes with FOXO1's repressive activity towards CYP4A11 by sequestering it in the cytoplasm and preventing its nuclear translocation, which ultimately unleashes CYP4A11 and promotes lipid accumulation. Show less
Chronic hepatitis B virus (HBV) infection is a major risk factor of hepatocellular carcinoma (HCC), and hepatocyte-derived host factors play important roles in HBV-associated tumor progression. Alpha- Show more
Chronic hepatitis B virus (HBV) infection is a major risk factor of hepatocellular carcinoma (HCC), and hepatocyte-derived host factors play important roles in HBV-associated tumor progression. Alpha-1B glycoprotein (A1BG) is a plasma glycoprotein reported to be dysregulated in multiple cancers. In this study, we investigated the functional role of A1BG in HBV-associated HCC progression. Both the HepG2 and HBV-transfected HepG2 cell lines were used to examine the biological effects of A1BG. A1BG expression was modulated using siRNA and a plasmid vector. A series of functional assays were conducted to assess cell proliferation, apoptosis, stemness, migration, and invasion. RNA microarray analysis and gene set enrichment analysis (GSEA) were performed to identify A1BG-regulated pathways. Functionally, A1BG overexpression suppressed cell proliferation, stemness, migration, invasion, and HBV products while promoting apoptosis in both HepG2 and HBV-transfected HepG2 cells. In contrast, opposite effects were shown in the event of A1BG knockdown. Moreover, A1BG expression was reduced in HBV-associated HCC tissues and correlated with advanced pathological stage and poor prognosis. RNA microarray analysis and GSEA revealed the activation of anti-HBV-related genes and suppression of FGFR1 signaling and the matrix metalloproteinase pathway in A1BG-overexpressing cells. This study provides evidence that A1BG may be a novel host factor associated with the in vitro suppression of HBV replication and HCC progression by modulating pathways related to enhanced antiviral effects, reduced proliferative capacity and stemness, and suppression of EMT. These findings suggest that A1BG is a potential therapeutic target in HBV-related HCC. Show less
Neuroplasticity, the brain's capacity to adapt and reorganize in response to experiences and environmental changes, is fundamental to cognitive aging. As individuals age, cognitive functions such as m Show more
Neuroplasticity, the brain's capacity to adapt and reorganize in response to experiences and environmental changes, is fundamental to cognitive aging. As individuals age, cognitive functions such as memory, processing speed, and executive function commonly decline, driven largely by changes in neuroplasticity mechanisms like synaptic plasticity, neurogenesis, and functional reorganization. Synaptic plasticity is a well-established mechanism supporting learning and memory across the lifespan, whereas adult neurogenesis, robustly demonstrated in rodents, remains highly limited and controversial in the adult and aged human brain, with evidence largely restricted to rare post-mortem observations and injury-associated conditions. Functional reorganization allows the brain to adapt to structural changes, helping to preserve cognitive function despite age-related decline. Several factors, including oxidative stress, neuroinflammation, and hormonal shifts, exacerbate the decline in neuroplasticity, accelerating cognitive deterioration. Various interventions, including cognitive training, physical exercise, and pharmacological approaches, have demonstrated the potential to promote neuroplasticity and support cognitive health in aging populations. However, one of the major challenges is tailoring these interventions to the unique needs of individuals, as well as identifying novel therapeutic targets for intervention. To effectively address the cognitive decline associated with aging, future research should focus on developing personalized strategies and innovative techniques to enhance or modulate specific neuroplasticity-related processes under defined conditions in the aging brain. These advancements may provide better tools for delaying, mitigating, or even reversing age-related cognitive decline, improving quality of life for older individuals. Show less
Previous research has indicated the brain-derived neurotrophic factor (BDNF) level is lower in schizophrenia and associated with cognitive impairment. Irisin-BDNF axis may strengthen learning and memo Show more
Previous research has indicated the brain-derived neurotrophic factor (BDNF) level is lower in schizophrenia and associated with cognitive impairment. Irisin-BDNF axis may strengthen learning and memory functions. This study examined associations between BDNF, peroxisome proliferator-activated receptor-gamma (PPAR gamma) and irisin with cognitive deficits in schizophrenia. We enrolled 80 patients with schizophrenia and 80 healthy controls (HCs). The enzyme-linked immunosorbent assay (ELISA) method was used for biochemical analysis. The Stroop Test, Trail Making Test (TMT), and Verbal Fluency Test (VFT) were used for cognitive assessment. Statistical analyses included t-tests, correlations, and analysis of covariance (ANCOVA) controlling key confounders. In unadjusted analyses, patients had significantly lower BDNF and PPARγ levels than HCs (ps < 0.001). After controlling for covariates, the difference in BDNF was still significant (F = 11804.71, BDNF demonstrates the most robust association with schizophrenia and cognitive function. The association of PPARγ with schizophrenia is confounded by demographic and metabolic factors, and irisin showed a limited link only to negative symptoms. Not applicable. Show less
The large-scale development of pig farming has introduced significant stressors that negatively affect pigs' mental health, behavior, and production efficiency. The hippocampus, crucial for cognition Show more
The large-scale development of pig farming has introduced significant stressors that negatively affect pigs' mental health, behavior, and production efficiency. The hippocampus, crucial for cognition and stress response regulation, plays a central role in these processes. However, the regulatory mechanisms underlying hippocampal function across pig breeds with different domestication statuses and their implications for behavior and breeding strategies remain unclear. We performed single-nucleus RNA sequencing (snRNA-seq) on hippocampal tissues from 22,342 cells across three pig breeds: Asian wild boar, Jinhua, and Duroc, representing different domestication statuses. We identified six major hippocampal cell types and annotated 108 breed-specific transcription factors, including GATA2, SPI1, and EBF1. Additionally, we characterized 83 co-expression modules and 50 significant ligand-receptor pairs, such as TGFβ, WNT, and SPP1, revealing complex intercellular communication networks. Oligodendrocyte expression patterns were conserved across all breeds. We identified 194 candidate genes linked to stress resilience, mental health, and feeding behavior, including MC4R, RYR2, PDE10A, and ABCG2. Alzheimer's disease-related gene enrichment was lower in Duroc pigs, consistent with reduced APOE expression. We also developed the Pig Hippocampus Single-cell Atlas (PHiSA, http://alphaindex.zju.edu.cn:8503/ ), an open-access database allowing breed-specific hippocampal analyses and validation of gene expression at the single-nucleus level. This study offers insights into hippocampal function regulation in pigs, focusing on stress resilience, behavior, and productivity. It highlights conserved and breed-specific molecular features of hippocampal cell types and their roles in adaptability and mental health. By integrating single-nucleus data, the research suggests that genetic strategies could be used to improve animal welfare, stress management, and production efficiency in pig breeding programs. Show less
At present, the research on the effective teaching behaviors of clinical nursing teachers mainly focuses on the overall level of effective teaching behaviors and their relationship with other variable Show more
At present, the research on the effective teaching behaviors of clinical nursing teachers mainly focuses on the overall level of effective teaching behaviors and their relationship with other variables, ignoring the individual heterogeneity of the effective teaching behaviors of clinical nursing teachers. This study through latent profile analysis (LPA), aims to identify different effective teaching behavior profiles of clinical nursing teachers and explore the demographic and personal factors associated with these different effective teaching behavior profiles. This is a cross-sectional study. A survey was conducted among 842 clinical nursing teachers through demographic questionnaires, the Effective Teaching Behavior Scale, and the Self-Efficacy Scale. LPA analyzes the potential characteristics of effective teaching behaviors of clinical nursing teachers. The multiple logistic regression method was used to explore the predictors of different spectra. Three potential characteristics were identified: Profile 1- high effective teaching behavior group, Profile 2- moderate effective teaching behavior group, and Profile 3 - low effective teaching behavior group. Marital status, years of teaching experience and self-efficacy are predictive factors for different profiles. Most clinical nursing teachers are classified as type 1, and they have relatively good effective teaching behavior ability. Strategies such as enhancing self-efficacy, paying attention to the marital status of clinical nursing teachers, and focusing on training clinical nursing teachers with shorter tenure may be effective ways to improve the effective teaching behaviors of clinical nursing teachers in different situations. Show less
Western diet (WD) fed Melanocortin 4 receptor-knockout (MC4R-KO) mice develop a phenotype resembling human metabolic dysfunction-associated steatohepatitis (MASH). Despite its clinical relevance, the Show more
Western diet (WD) fed Melanocortin 4 receptor-knockout (MC4R-KO) mice develop a phenotype resembling human metabolic dysfunction-associated steatohepatitis (MASH). Despite its clinical relevance, the role of the gut–liver axis in MASH pathogenesis remains unclear. We investigated the gut-liver axis through microbiomic and metabolomic analyses of WD-fed MC4R-KO mice, and we examined their association with MASH pathology. We performed an integrated microbiome and metabolome analysis of the liver, small intestinal contents, large intestinal contents, and plasma of wild-type (WT) and MC4R-KO mice fed either a normal diet or WD. Markers of hepatic inflammation, fibrosis, and steatosis measured in this study were used to assess MASH severity and to correlate microbiome and metabolite alterations. WD-fed MC4R-KO mice exhibited significant hepatic steatosis, inflammation, and fibrosis. The abundance of certain microbiota, including Muribaculaceae and The observed gut microbial and metabolic alterations, particularly bile acid and lipid metabolism dysregulation, offer insights into potential therapeutic targets aimed at modulating the gut–liver axis to treat or prevent MASH. The online version contains supplementary material available at 10.1186/s13099-026-00813-9. Show less
Niemann-Pick disease, type C1 (NPC1), is a rare, fatal, neurodegenerative lysosomal disorder caused by pathological variants in Proximal Extension Assays (PEA) were used to determine relative protein Show more
Niemann-Pick disease, type C1 (NPC1), is a rare, fatal, neurodegenerative lysosomal disorder caused by pathological variants in Proximal Extension Assays (PEA) were used to determine relative protein expression levels from 68 serum samples from NPC1 individuals and 20 age-appropriate control serum samples. Statistical models identified NPC1 disease-specific effects after adjusting for covariates. Selected proteins were orthogonally validated by ELISA and correlated with assessments of both disease severity (Age of Neurological Onset (ANO) and Annual Severity Increment Score (ASIS)) and disease burden (NPC Neurological Severity Score (NSS). Quantifiable data was obtained on 2888 proteins, revealing 186 increased (adjusted log The statistical analysis pipeline developed in this study is flexible and scalable and supports application to high-dimensional proteomic datasets. This study identified and validated serum proteins with altered expression in individuals with NPC1, responded to miglustat therapy, and correlated with disease severity or burden. These proteins may have clinical utility as biomarkers and provide insights into cellular mechanisms contributing to NPC1 disease pathology. NCT00344331 (Registration on 2006-06-23). Show less
As sports socializing is becoming a dominant lifestyle that integrates physical health with social interaction in China, understanding the underlying drivers of participation is crucial. However, trad Show more
As sports socializing is becoming a dominant lifestyle that integrates physical health with social interaction in China, understanding the underlying drivers of participation is crucial. However, traditional research predominantly relies on a “variable-centered” paradigm, which assumes population homogeneity and focuses on linear relationships between single motives and behaviors. This approach often fails to capture the complexity of how multiple motivations are configured within individuals (heterogeneity), and how these internal configurations are associated with external behavioral choices. To address this gap, this study employed a novel hybrid methodological framework combining Latent Profile Analysis (LPA) and Random Forest (RF) modeling. Based on data from 1,104 adults, LPA was first used to identify distinct motivational subgroups. Subsequently, RF algorithms, utilizing feature importance ranking and “One-vs-Rest” strategies, were applied to identify the associative patterns between these motivational profiles and key behavioral indicators, including sports types, media usage, and economic investment. The analysis identified four distinct motivational profiles: (1) Psychologically Introverted (3.6%), prioritizing internal psychological rewards over social status; (2) Physiologically Oriented (44.1%), the largest group, driven primarily by physical health needs; (3) Balanced (39.0%), exhibiting moderate levels across all motivational dimensions; and (4) High-Motivation/Comprehensively Oriented (13.3%), showing high intensity in both internal and external rewards. The RF model achieved a training accuracy of 99.9% and identified that Sports Type (specifically large-ball games), Media Channels (particularly Douyin/Rednote), and Annual Spending were the top three salient behavioral markers distinguishing these profiles. Notably, the High-Motivation group was characterized by heavy reliance on visual social media for social display. Participation in sports socializing among Chinese residents is not characterized by a singular, homogeneous motivation but features a clear internal stratification structure. The specific pattern of motivational combinations (i.e., the type) systematically maps onto external behavioral choices, where the sociocultural attributes of the sport and the media characteristics of digital social platforms constitute the key predictive markers of behavioral differentiation. The establishment of this “Motivation Type—Behavioral Signal” integrated framework promotes a theoretical shift in the sports socializing research paradigm from “homogeneity” to “heterogeneity” and deepens the understanding of the complex manifestations of Self-Determination Theory and Social Capital Theory in a sports context. It also provides precise user profiles and behavioral insights for sports social platforms, commercial clubs, and public sports service departments. Exploring service customization and policy adjustments based on different motivation-behavior patterns could potentially enhance user engagement and satisfaction, suggesting a possible direction for the development of the sports socializing industry. The online version contains supplementary material available at 10.1186/s12889-026-26780-z. Show less
Lipoprotein(a) [Lp(a)] is a causal, genetically determined risk factor for atherosclerotic cardiovascular disease (ASCVD) and calcific aortic valve stenosis (CAVS). Although elevated Lp(a) affects app Show more
Lipoprotein(a) [Lp(a)] is a causal, genetically determined risk factor for atherosclerotic cardiovascular disease (ASCVD) and calcific aortic valve stenosis (CAVS). Although elevated Lp(a) affects approximately 20% of the global population, specific pharmacological options have long been unavailable, leaving a major gap in residual risk management. This review synthesizes current understanding of Lp(a) molecular architecture, genetics, and metabolism, and integrates mechanistic evidence linking Lp(a) to pro-atherogenic, pro-inflammatory, and pro-thrombotic pathways. We summarize epidemiological and genetic data associating Lp(a) with a broad spectrum of cardiovascular outcomes and discuss current clinical guidelines on screening and risk stratification. Furthermore, we provide an up-to-date overview of the emerging therapeutic landscape, including RNA-targeted therapies and novel oral small molecules. With pivotal phase 3 outcome trials nearing completion, the field is transitioning from viewing Lp(a) as an untreatable biomarker to an actionable therapeutic target, with important implications for precision cardiovascular prevention. Show less
(1) Background: The increasing environmental concentration of polystyrene nanoplastics (PS-NPs) may pose a risk of human exposure and health threats. Previous studies have demonstrated that exposure t Show more
(1) Background: The increasing environmental concentration of polystyrene nanoplastics (PS-NPs) may pose a risk of human exposure and health threats. Previous studies have demonstrated that exposure to PS-NPs poses a threat to neural synaptic plasticity, yet the underlying mechanisms remain unclear. (2) Methods: Hippocampal astrocytes and neurons were co-cultured, exposed to PS-NPs at concentrations of 10, 50, and 100 μg/mL, and cytotoxicity was assessed. We investigated PS-NP-induced impairment of synaptic plasticity by regulating the brain-derived neurotrophic factor (BDNF). (3) Results: Calmodulin-dependent protein kinase II (CaMKII) is a central molecular organizer of synaptic plasticity, learning, and memory, and its activity is intrinsically linked to intracellular calcium ion concentration. Our research indicates that PS-NPs may interfere with calcium ion signaling and CaMKIIα activity, thereby reducing CaMKIIα activity. This subsequently downregulates the expression of cAMP response element-binding protein (CREB), modulates BDNF expression, and impacts synaptic plasticity. (4) Conclusions: In summary, this study primarily focused on the effects of PS-NPs exposure on hippocampal synaptic plasticity. Show less
Familial partial lipodystrophy type 3 (FPLD3) is a rare autosomal dominant disorder caused by mutations in peroxisome proliferator-activated receptor gamma(PPARG), which encodes the key adipogenic tra Show more
Familial partial lipodystrophy type 3 (FPLD3) is a rare autosomal dominant disorder caused by mutations in peroxisome proliferator-activated receptor gamma(PPARG), which encodes the key adipogenic transcription factor peroxisome proliferator-activated receptor gamma(PPARγ). Clinical diagnosis is challenging due to phenotypic overlap with common metabolic syndromes. We identified a novel PPARG variant in a Chinese family and performed comprehensive functional characterization to elucidate its pathogenic mechanism. The proband, a 15-year-old boy presenting with atypical fat distribution, severe insulin resistance, hypertriglyceridemia, and pancreatitis, underwent clinical evaluation and whole-exome sequencing. The identified variant was confirmed by Sanger sequencing. Its functional impact was assessed through in silico modeling, luciferase reporter assays, protein stability analysis (cycloheximide chase), and evaluation of mitochondrial function (JC-1 staining) and adipocyte gene expression in cellular models. A heterozygous PPARG c.634C>T (p.Arg212Trp, R212W) variant was identified and segregated with the phenotype. Functional studies revealed that the R212W mutant exhibits a partial loss of transcriptional activity (~40% of wild-type) while retaining ligand sensitivity. Crucially, we demonstrated that the mutant protein has significantly reduced stability due to accelerated degradation. In adipocyte models, R212W expression led to impaired mitochondrial membrane potential, depleted cellular ATP levels, and downregulated expression of key metabolic genes (glucose transporter 4[GLUT4], adiponectin[ADIPOQ], fatty acid binding protein 4[FABP4], lipoprotein lipase[LPL], perilipin 1[PLIN1]). These functional deficits were partially rescued by treatment with the PPARγ agonist rosiglitazone. We report a novel pathogenic PPARG R212W variant associated with FPLD3. Our data extend beyond a simple loss-of-function model by establishing a multi-faceted pathogenic mechanism involving protein destabilization, mitochondrial dysfunction, and cellular bioenergetic failure. The partial rescue by rosiglitazone suggests a potential therapeutic avenue. This study underscores the importance of integrating clinical phenotyping with deep functional analysis to diagnose and understand rare monogenic lipodystrophies. Show less