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Reflective practice has emerged as a critical competency for psychiatric nurses, enabling them to critically evaluate and adapt their care approaches. Growing evidence suggests that reflective practice may serve as a key driver of high-quality caring behaviors, which are essential for establishing therapeutic relationships and improving outcomes in mental health settings. This study aimed to classify latent profiles of reflective practice among psychiatric nurses and examine their effects on caring behaviors. This cross-sectional study was conducted to recruit psychiatric nurses from ten mental health treatment centers across ten hospitals in Sichuan Province, China, between January and March 2024. Psychiatric nurses completed an online investigation encompassing the Reflective Practice Questionnaire and the Caring Behaviors Inventory (CBI). Latent profile analysis (LPA) and hierarchical regression analysis were employed to achieve the study objectives. A total of 346 psychiatry nurses were included in this study. The reflective practice of psychiatric nurses was classified into three subgroups in this study: "passive reflective participants" (n=48, 13.9%), "moderately balanced reflective practitioners" (n=175, 50.6%), and "high-achieving reflective leaders" (n=123, 35.5%). The hierarchical regression analysis revealed a significant positive association between distinct profiles of reflective practice and psychiatric nurses' caring behaviors (ΔR The identification of three distinct reflective practice profiles ("passive reflective participants", "moderately balanced reflective practitioners", and "high-achieving reflective leaders") provides a nuanced understanding of the reflective practice among psychiatry nurses. Targeted development programs, such as peer mentoring for the "passive" group and the "moderate" group, could be designed based on individual profile membership to optimize caring behaviors in psychiatric nursing. Show less

During the past decade, our group has induced electroconvulsive seizures (ECS) in rodent models of early-life stress to prove clear differences in antidepressant-like efficacy mainly driven by sex and age, with females and adolescents showing diminished responses (as opposed to males and adult rodents). Moreover, we have proven a role for sex hormones in this response, since letrozole, an inhibitor of the biosynthesis of estrogens, improved the antidepressant-like efficacy of ECS in adolescent female rats. In this follow-up study, we utilized selective estrogen receptor modifiers (tamoxifen and clomiphene) to evaluate how they interact with the antidepressant-like response induced by ECS in male and female adolescent rats. Early-life stressed Sprague-Dawley rats through maternal separation were treated during adolescence with tamoxifen (1 mg/kg, 7 days) or clomiphene (10 mg/kg, 5 days) and/or with ECS (95 mA, 0.6 s, 100 Hz, 1 session/day, 5 days). Antidepressant-like responses were measured behaviorally under the stress of the forced-swim test, and through hippocampal markers (cell proliferation and neurogenic differentiation, and BDNF protein level). The main results proved that tamoxifen improved the expected antidepressant-like response of ECS in adolescent rats, as observed in the forced-swim test, while boosted hippocampal proliferation and neurogenic differentiation. Contrarily, clomiphene did not alter ECS' response at the behavioral level and even showed some negative signs on the neuroplasticity markers evaluated (decreased neurogenic differentiation and BDNF content). Therefore, when considering an estrogen receptor modifier to enhance the antidepressant-like potential of ECS in adolescence, tamoxifen emerges as a promising option due to its positive behavioral and neuroplastic effects. Show less

Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by impaired social interaction and repetitive behaviors, with currently limited therapeutic options. Oxidative stress is suggested as significant in ASD pathophysiology, making antioxidant strategies a promising therapeutic direction. Exercise reduces oxidative stress, alleviates ASD symptoms, and increases tetrahydrobiopterin (BH4) and brain-derived neurotrophic factor (BDNF) levels through AMP-activated protein kinase (AMPK) activation. MOTS-c, a mitochondrial-derived peptide acting through AMPK, mimics the effects of exercise but reportedly does not cross the blood-brain barrier (BBB). Considering the challenges in exercise adherence in ASD, our study hypothesizes that MOTS-c could increase circulating BH4 and BDNF, both of which are BBB-permeable, and alleviate oxidative stress and ASD symptoms. To evaluate this hypothesis, we investigated the effects of MOTS-c in the valproic acid-induced rat model of autism. Pregnant Sprague-Dawley rats received intraperitoneal 500 mg/kg valproic acid or saline on embryonic day 12. Female and male offspring were treated with 0.5 mg/kg/day MOTS-c or saline intraperitoneally from postnatal days 21 to 46. Following behavioral testing, animals were sacrificed, and histological and biochemical analyses were performed. Valproic acid exposure led to impaired sociability, repetitive behaviors, anxiety, cerebellar Purkinje cell loss, and increased oxidative stress and neuronal damage in the prefrontal cortex. These alterations were reversed by MOTS-c, except for anxiety and neocortical damage. No significant changes in plasma BH4 or BDNF levels were detected. Through its neuroprotective and antioxidant effects independent of BH4 and BDNF, MOTS-c may alleviate autism-like behaviors, suggesting its potential as a therapeutic candidate for ASD. Show less

The 2025 ESC/EAS Dyslipidaemia Focused Update provides a targeted revision of the 2019 guidelines, integrating newly available evidence with the potential to influence clinical decision-making before the next full update. While LDL-C treatment targets remain unchanged, the document reshapes how they should be achieved, emphasizing faster therapeutic intensification, broader use of combination therapy and improved risk stratification with SCORE2/SCORE2-OP, lipoprotein(a) [Lp(a)] and coronary artery calcium (CAC) scoring. New evidence supporting bempedoic acid, inclisiran and evinacumab expands the therapeutic armamentarium, particularly for patients at high, very high and extreme cardiovascular risk or those with statin intolerance. In the acute coronary syndrome (ACS) setting, the update reinforces a more proactive, early-intensification approach. Overall, the Focused Update refines the operational framework of LDL-C management, promoting earlier, more personalized and more sustained lipid lowering to reduce cumulative atherosclerotic exposure. Show less

This study investigated the latent profiles of reproductive concerns among women of childbearing age with systemic lupus erythematosus (SLE) and analyzed the differences in the characteristics across these profiles. A questionnaire was administered to 332 female patients of childbearing age with SLE at four tertiary-grade general hospitals in Mianyang City, China. We used a general information questionnaire, the Reproductive Concerns After Cancer Scale (RCAC), the Medical Coping Modes Questionnaire (MCMQ), and the Social Support Rating Scale (SSRS). A latent profile analysis (LPA) and multiple logistic regression models were employed to investigate the characteristics of the latent profiles and the factors that influence reproductive concerns. The total score for the reproductive concerns among women with SLE of childbearing age was moderate (58.45 ± 13.51). Four latent profiles were identified: low reproductive concern–high infertility acceptance (12.66%), moderate reproductive concern–concern about personal health (18.95%), moderate reproductive concern–concern about the child’s health (45.64%), and high reproductive concern–balance (22.75%). The model fit indices that support the four latent profiles included high entropy (0.92) and a significant result of the Lo–Mendell–Rubin (LMR) adjusted likelihood ratio test ( The reproductive concerns observed among women of childbearing age with SLE exhibited significant heterogeneity. In the field of clinical nursing, personalized intervention measures should be developed based on distinct categorical characteristics and influencing factors to reduce reproductive concerns among members of this patient population. Show less

Alzheimer's disease (AD) is the most prevalent form of dementia, accounting for more than two-thirds of cases in older adults. AD is associated with neuropsychiatric symptoms such as depression, anxiety, and sleep disturbances. The coexistence of AD with depression, in particular, poses serious challenges and often results in suboptimal outcomes with conventional therapies. The present study therefore aimed to investigate the therapeutic potential of escitalopram (ESC; SSRI) in combination with galantamine (GAL; AChE inhibitor) on key pathological pathways, including the neurotrophic system, hypothalamic-pituitary-adrenal (HPA) axis, kynurenine pathway, inflammation, and oxidative stress, in an animal model of AD comorbid with depression. Swiss albino mice were subjected to chronic mild stress (CMS) for 21 days and received intrahippocampal administration of amyloid-β peptide to mimic AD-depression comorbidity. Subsequently, ESC (10 mg/kg) combined with GAL (5 mg/kg) was administered orally for 20 days alongside the CMS protocol, followed by behavioral, biochemical, and histopathological assessments. The combined GAL + ESC treatment significantly alleviated depressive symptoms and improved working and spatial memory in CMS and amyloid-β-exposed mice. Furthermore, the therapy normalized hippocampal levels of BDNF, proinflammatory cytokines (IL-6, TNF-α), kynurenine metabolites (3-HK, QUIN), and oxidative stress markers toward those observed in the sham group. Histopathological analysis further confirmed the preservation of hippocampal integrity with combined therapy. Overall, the findings highlight the potential of ESC as an adjunct to GAL in ameliorating depressive symptoms and cognitive deficits, underscoring its promise for further clinical evaluation in the management of AD comorbid with depression. Show less

The benefits of physical activity are well-documented, and healthy habits established in childhood often continue into adulthood. Recent research has shown that schoolyards provide a valuable platform for children to be physically active, with greener spaces in particular enhancing both physical and mental well-being. The City of Stockholm has formally decided to reconstruct 20 schoolyards, incorporating more play areas and greenery. This study will evaluate the impact of these reconstructions, aiming to increase physical activity levels among schoolchildren across all socioeconomic groups, while also contributing to climate change mitigation in urban environments. This study will utilize a stepped-wedge design, where each school undergoing schoolyard reconstruction will serve as both a control and intervention site. Over four years, from 2024 to 2027, five schools will have their schoolyards reconstructed each summer. Control data will be collected in the spring prior to the reconstruction, with follow-up data collected in the spring after the reconstruction. We aim to recruit 3 600 children aged 6 to 12 years. The primary outcome will be changes in physical activity, measured via accelerometers. Secondary outcomes will include changes in musculoskeletal fitness, perceptions of the schoolyard, and environmental impact. Given the 24-hour constraint of daily time, movement behaviors (e.g., MVPA, LPA, SB, and sleep) will be treated as compositional data. Log-ratio transformation will be applied and introduced as outcomes in general linear mixed models, with schools treated as random effects. This large-scale study has the potential to set new guidelines for physical health policies in schools across the City of Stockholm, potentially influencing the well-being of an even greater number of children. Additionally, the study could provide valuable insights into strategies for mitigating climate change through urban design, offering a model for sustainable school environments that promote both health and environmental resilience. The trial has been registered on ClinicalTrials.gov the 19th of May 2023, with the reference number NCT05865782. The online version contains supplementary material available at 10.1186/s12889-026-26609-9. Show less

Women show higher levels of Alzheimer's disease (AD) pathology than men, but the implications for cognitive decline remain unclear. Determining the extent to which tau burden differentially accelerates cognitive decline in men and women will provide critical insights into sex-specific pathways of disease progression. We leveraged tau positron emission tomography (PET), amyloid beta (Aβ) PET, apolipoprotein E (APOE) ε4 genotyping, and longitudinal cognitive data over approximately 8.6 (standard deviation [SD] = 3.8) years from 1007 cognitively unimpaired adults across three cohorts. Cognitive trajectories were modeled with linear mixed-effects regression including sex × tau × time interactions, and results were synthesized using random-effects meta-analysis. Higher tau burden in medial and lateral temporal regions was associated with faster cognitive decline in women than in men. High tau burden carries a disproportionately greater cognitive cost for women, underscoring the need for sex-specific approaches to early detection and therapeutic intervention in AD. A meta-analysis across three independent cohorts shows that female cognitive advantage at low tau shifts to vulnerability at higher tau. Sex differences in tau-related cognitive decline were consistent after accounting for amyloid burden. Sex-specific rates of cognitive decline should be considered in clinical trial design. Show less

Methotrexate (MTX) is used in treating several malignancies. However, MTX neurotoxicity remains a significant clinical side effect, leading to cell division malformation, and neurogenesis impairment. Chrysin, a flavonoid compound found in natural products, demonstrates various biological characteristics, including neuroprotective and antioxidant properties. The purpose of this study was to investigate the ameliorative effect of chrysin on oxidative damage and neurogenesis impairment caused by MTX. Male Sprague-Dawley rats were randomly divided into four groups, including the vehicle, MTX (75 mg/kg), chrysin (10 mg/kg), and chrysin+MTX groups. Chrysin was orally administered for 15 days. MTX was administered intravenously on days 8 and 15. The hippocampal neural stem cells were evaluated using sex determining region Y-box 2 (sox2) and nestin immunofluorescence staining. Antioxidant enzyme expression and the levels of oxidative stress marker were assessed. Additionally, the expressions of nuclear factor erythroid 2-related factor 2 (Nrf2), brain-derived neurotrophic factor (BDNF), cAMP-response element binding (CREB), and phosphorylated CREB (pCREB) were evaluated using Western blotting. Results showed that MTX significantly decreased the activity of antioxidant enzymes and produced oxidative stress. MTX also impaired neurogenesis, evidenced by decreased sox2 and nestin-positive cells and decreased expression of Nrf2, BDNF, CREB, and pCREB in the hippocampus and prefrontal cortex. However, chrysin significantly reversed the effects of MTX on these parameters. In conclusion, chrysin exhibits neuroprotective effects against MTX-induced neurogenesis impairment by upregulating antioxidant enzyme activity, reducing oxidative stress, and improving protein expression related to neurogenesis. Show less

The incretin hormone glucagon-like peptide-1 (GLP-1) exerts potent effects on glucose metabolism, prompting the development of therapeutic strategies that enhance activity of the GLP-1 receptor (GLP-1R) pathway. Inhibitors of dipeptidyl peptidase 4 (DPP-4) prolong the half-life of endogenous GLP-1 and typically achieve reductions in HbA1c of 0.5%-0.8%. However, large-scale cardiovascular (CV) outcomes trials (CVOTs) with DPP-4 inhibitors demonstrated CV safety but did not show a reduction in CV events. A second incretin-based therapeutic approach was the development of GLP-1R agonists (GLP-1RAs). Various GLP-1RAs, including liraglutide, semaglutide, and dulaglutide, demonstrated a reduction in CV outcomes in large CVOTs. Initially, these medications were only available as injectable agents for subcutaneous administration, but recent technological advancements have enabled the development of orally available GLP-1RAs. A third incretin-based approach is tirzepatide, a dual agonist of GLP-1R and glucose-dependent insulinotropic polypeptide receptor (GIPR), which achieves greater HbA1c reduction and weight loss compared with GLP-1RAs alone. Ongoing large-scale CVOTs will determine its effects on hard cardiovascular endpoints. This Review summarizes the effects of GLP-1 and GLP-1RAs in the CV system as well as clinical data of GLP-1RAs in individuals with CV disease or high CV risk. Show less

Object recognition memory (ORM) plays a key role in identifying familiar items and encoding episodic information. ORM consolidation depends on β-adrenergic receptor (βAR) signaling and is associated with increased BDNF expression in the dorsal hippocampus. Although hippocampal activation of cannabinoid type-1 receptors (CB1Rs) is known to impair ORM consolidation, the mechanisms underlying this effect remain unclear. In this study, we used the novel object recognition task to examine the interaction between CB1Rs and βARs during ORM consolidation in adult male Wistar rats. Intra-dorsal CA1 infusion of the CB1R agonist ACEA, the βAR antagonist propranolol, or the PKA inhibitor myristoylated PKI Show less

Autism spectrum disorder (ASD) is a neurodevelopmental disorder marked by repetitive behaviors, social deficits, and comorbid phenotypes, with rising prevalence. Its unclear pathogenesis and symptom heterogeneity hinder therapy development. Chrysin, a flavone from bee products and plants, shows diverse biological effects but limited ASD studies. Therefore, this study examines chrysin's impact on ASD behaviors and comorbidities. Pregnant Wistar rats received 600 mg/kg valproic acid (VPA) on Embryonic day (ED) 12.5 intraperitoneally to induce ASD phenotypes. Neurodevelopmental milestones were evaluated on postnatal day (PND) 3-20. Twenty-seven male offspring were used for the study. The control (n = 9 ), the VPA-exposed offspring were randomly divided into two groups: a VPA + vehicle group (n = 9) and a VPA + chrysin treatment group (n = 9). The animals received distilled water or chrysin (100 mg/kg p.o) from PND21-42. Typical and atypical baseline behaviours were done on PND21 and repeated on PND42. Serum corticosterone, prefrontal cortex (pFC), and hippocampal (HPC) neurotransmitters, Histone deacetylase (HDAC), BDNF, and caspase-3 were evaluated with ELISA, while Shank3, p-AKT, and pS6 were evaluated with immunohistochemistry and Western blot. Data were analysed using One-way or Two-way ANOVA at α < 0.05. The VPA-exposed pups exhibit signs of developmental delay compared to the controls. Chrysin also ameliorated hyperalgesia (2.659 ± 0.2628vs4.257 ± 0.3272), depressive-like behaviour (68.86 ± 3.912vs138.5 ± 9.526), and anxiety (189.6 ± 20.58vs95.10 ± 7.716). Autistic-like, sociability (0.46 ± 0.039vs0.28 ± 0.06), and social novelty (0.77 ± 0.08vs-0.28 ± 0.19) were improved by Chrysin. Chrysin increased the level of serum corticosterone (22.45 ± 1.77vs13.90 ± 0.49) when compared to VPA-only. In the prefrontal cortex and hippocampus, the levels of serotonin, GABA, and dopamine increased, while glutamate levels decreased. The levels of HDAC (1.28 ± 0.12vs2.56 ± 0.10; 1.22 ± 0.11vs1.35 ± 0.18), and Caspase3 (10.33 ± 0.72vs16.79 ± 0.85; 4.50 ± 0.53vs6.45 ± 0.78) were reduced compared to VPA-only, while increasing the levels of BDNF (21.25 ± 0.63vs14.73 ± 0.57; 17.86 ± 1.23vs7.39 ± 0.56). Chrysin increased the expression of SHANK3(1.43 ± 0.1311vs0.6588 ± 0.02533; 0.8895 ± 0.1092 vs. 0.1961 ± 0.1401), p-AKT (0.8923 ± 0.04518vs0.2493 ± 0.03399; 1.011 ± 0.09692vs0.4969 ± 0.08145), and pS6 in the pFC and HPC. Chrysin may have ameliorated valproic acid-induced Autistic-like behaviours by upregulating epigenetic and translational control of scaffolding protein synthesis, and preserving neurotrophic signalling, in male Wistar rats exposed to VPA in utero. Show less

This study explored the molecular mechanisms by which T7 peptide-modified liposomal irisin (T7@Lipo@Irisin) alleviates perioperative neurocognitive disorders (PND) via regulation of the AMPK/PGC-1α metabolic pathway. T7@Lipo@Irisin nanoparticles were prepared by thin-film hydration and ultrasonic dispersion and showed favorable physicochemical performance, with an encapsulation efficiency of approximately 85%. Serum analysis of healthy donors (n = 10) and PND patients (n = 6) showed higher IL-6 and TNF-α and lower brain-derived neurotrophic factor (BDNF) in PND. In vitro, T7@Lipo@Irisin restored mitochondrial membrane potential, reduced reactive oxygen species (ROS) accumulation, enhanced Neuro-2a hippocampal neuron viability, and activated the AMPK/PGC-1α axis under oxidative stress. In a PND mouse model, it improved Garcia neurological scores, preserved neuronal morphology, and decreased apoptosis. Multi-omic integration of scATAC-seq/scRNA-seq and TMT-based proteomics demonstrated enhanced neuro-glial crosstalk, epigenetic activation of metabolic/antioxidant genes (e.g., Sirt1, Nfe2l2), and upregulated pathways (mitochondrial function, NAD-dependent metabolism, synaptic homeostasis). Proteomics confirmed upregulation of SIRT1, NDUFS2, and BDNF, forming a network linked to energy metabolism and neural repair. Collectively, T7@Lipo@Irisin mitigates PND by activating AMPK/PGC-1α to enhance mitochondrial function and stabilize the neuro-microenvironment. Show less

FGFRs genetic alterations such as mutations, amplifications, and chromosomal translocations are prevalent in cancers, leading to the initiation and progression of tumors by enhancing FGFR signaling. The substantial problems arising from the lack of decisive clinical evidence have resulted in the cessation of some inhibitor applications, and identifying effective small molecule inhibitors that selectively target FGFRs can advance the therapy of cancers driven by FGFRs abnormalities. The three-dimensional structure of the FGFR1/2/3/4 protein and the amino acid positions within the tyrosine kinase domain were downloaded from the PDB database, and small molecule data were extracted from the ZINC15 database. Then, we used molecular docking and dynamics simulations to assess compounds interacting with FGFR proteins, and screening potential small molecules targeting FGFR. Finally, we evaluated its effects by two CRC cell line HCT116 and NCI-H716. In the study, by docking with 2.8 million small molecules, we identified three promising FGFR small molecule inhibitors ranked in the top average absolute difference in free energy. By evaluating the binding stability of the docking pose of the three compounds, we found that ZINC000101867325 could form the stable binding interactions with FGFR1/2/3. And, ZINC000101867325 inhibited the activity of FGFR signaling, and resulted in cell apoptosis and decrease in cell proliferation and migration in colorectal cancer cell lines. In addition, ZINC000101867325 is also predicted to target FGFR2 mutations in colorectal cancer patients. We predicted three small molecules targeting FGFRs, and ZINC000101867325 shows superior chemical bond types and stability with FGFR1/2/3, and inhibits FGFR signaling in CRC cell lines. This study provides novel FGFRs inhibitors, which enrich treatment strategies for cancers. Show less

Post-stroke seizures are a common and debilitating complication with limited therapeutic options, underscoring the need to identify novel molecular targets. Disruption of chloride homeostasis via impaired potassium chloride cotransporter 2 (KCC2) activity is a key driver of neuronal hyperexcitability. While microglia are a predominant source of brain-derived neurotrophic factor (BDNF) in the acute phase after brain injury, the role of microglial BDNF and its signaling in KCC2 dysregulation and early post-stroke seizure susceptibility remain poorly defined. Using a middle cerebral artery occlusion-reperfusion (MCAO-R) mouse model and oxygen-glucose deprivation/reoxygenation (OGD/R) in hippocampal neurons, we assessed KCC2 function, neuronal excitability, and seizure susceptibility. Pharmacological tools, including the microglial inhibitor minocycline, the TrkB antagonist K252a, the loop diuretic furosemide (FUR), repurposed here as a KCC2-stabilizing agent, and the KCC2 activator CLP290, were employed. Techniques included immunofluorescence, Western blotting, patch-clamp electrophysiology, electroencephalography (EEG), and behavioral seizure assessment. MCAO-R and OGD/R significantly reduced membrane KCC2 expression, leading to a depolarizing shift in the GABA equilibrium potentials (E Our findings identify microglia-derived BDNF/TrkB signaling as a critical upstream pathway mediating KCC2 dysfunction in early post-stroke seizure. Targeting this axis by inhibiting microglial activation, blocking TrkB, or directly enhancing KCC2 function with activators like CLP290 represents a promising therapeutic strategy for stroke-related epilepsy. Show less

Osteoporosis frequently affects older women and is strongly linked to their daily routines, which include both sedentary behavior (SEB) and physical activities (PA) of different intensities. This study investigates the dose-response relationship of different SEB and PA patterns among community-dwelling older women and assesses the potential impact of time reallocation on osteoporosis risk through an isotemporal substitution analysis. In this study, 1,106 older women aged between 60 and 70 years in Tianjin participated. Their moderate to vigorous physical activity (MVPA), light physical activity (LPA), and SEB were objectively assessed using an accelerometer. The connection between MVPA, LPA, SEB, and osteoporosis was assessed using binary logistic regression models and isotemporal substitution models. The osteoporosis group and non-osteoporosis group comprised 461 and 645 subjects respectively, accounting for 41.68 and 58.32% of the total cohort. The osteoporosis group had significantly higher daily SEB compared to the non-osteoporosis group ( PA and SEB in older women exhibit a significant dose-response relationship with osteoporosis. Avoiding prolonged sitting and increasing PA duration both offer protective effects against osteoporosis in older women, with achieving a certain level of MVPA being the most effective protective measure. Show less

The apolipoprotein E (APOE) ε4 allele is a risk factor for late-onset Alzheimer's disease; however, risk varies by sex and lifestyle. Regular physical activity is known to mitigate cognitive decline; whether the degree of benefit differs by APOE genotype, sex, and race remains unknown. Analyses utilized data from 2,985 participants in the Health, Aging, and Body Composition (HABC) cohort, comprising community-dwelling black and white older adults followed for 10 years. Cognitive performance was assessed multiple times across the 10 years using the Digit Symbol Substitution Test (DSST) for executive functions and processing speed and the Modified Mini-Mental State Examination (3MS) for global cognition. APOE genotypes were categorized into ε2, ε3, and ε4 groups. Annual self-reported walking time was used to quantify physical activity. Linear mixed models and latent growth curve modeling examined the interactions between APOE genotype, sex, and walking on cognitive trajectories with adjustments for race, study location, health score, age, education attained, and body mass index. APOE ε4 carriers demonstrated steeper declines in both DSST and 3MS scores compared to ε3 carriers, irrespective of sex (all β<-0.13, all p < 0.004). APOE ε2 was protective longitudinally for 3MS in females only (β = 0.15, p < 0.002). Walking showed the strongest protective effect in APOE ε4 carriers for females and males in the rate of change of DSST and 3MS scores (all β > 0.27, all p < 0.044). These findings underscore the importance of public messaging about the benefits of regular physical activity for retaining cognitive function especially for persons genetically at heightened risk. Show less

Major Depressive Disorder (MDD) is a debilitating psychiatric disorder that is a leading cause of disability worldwide. Although treatment with antidepressants, such as Selective Serotonin Reuptake Inhibitors (SSRIs), has demonstrated clinical efficacy, the "trial and error" approach in choosing the most effective antidepressant treatment for each patient allows for only a subset of patients to achieve response to the first line of treatment. Circular RNAs (circRNAs), are highly stable and brain-enriched non-coding RNAs that are mainly derived from the backsplicing and covalent joining of exons and introns of protein-coding genes. They are known to be important for brain development and function, cross the blood-brain-barrier, and be highly sensitive to changes in both synaptic activity and neuronal receptor signaling. Here we present evidence that expression of the brain-enriched circRNA, CDR1as, is associated with symptomatic response to SSRI treatment, and regulated by serotonin and Brain-Derived Neurotrophic Factor (BDNF) receptor activity. We present data using circRNA-specific PCR in baseline whole blood samples from two independent cohorts, drawn from the Establishing moderators and biosignatures of antidepressant response in clinical care (EMBARC) and the Biomarkers of ANTidepressant RESponse (ANTARES) clinical studies, showing that before treatment CDR1as is differentially expressed between future symptomatic responders and non-responders to treatment with the SSRI sertraline. Additional data from naturalistic antidepressant response studies further highlight the association between CDR1as and antidepressant effects of SSRIs as a class. In addition, we show that CDR1as levels are altered following sertraline treatment in responders with the trajectory of change post-treatment associated with long-term remission. Furthermore, we report that levels of CDR1as in the blood can specifically predict remission with SSRI treatment, but not response/remission with Placebo or Bupropion treatments. Lastly, we provide evidence in animal mechanistic and neuronal culture studies, suggesting mouse Cdr1as is strongly regulated by 5-HT2A and BDNF receptor signaling. Taken together, our data identify a brain-enriched circRNA associated with known mechanisms of antidepressant response that can serve as a blood biomarker for predicting response and remission with SSRI treatment. Show less

Glial cell line-derived neurotrophic factor (GDNF) and brain-derived neurotrophic factor (BDNF) are proteins essential for neuronal survival and implicated in Parkinson's disease (PD) pathophysiology. Although reduced levels of these neurotrophins have been observed in PD, their relationship with disease progression remains unclear. We conducted a systematic review by independently searching four databases using predefined keywords: Parkinson AND (GDNF OR BDNF OR neurotroph) AND (serum OR blood OR cerebrospinal fluid). After screening 2132 records, 35 studies qualified for inclusion. Changes in neurotrophic factors' levels were evaluated in relation to disease severity and duration. Many studies reported a decline in BDNF levels associated with more severe motor symptoms. Some studies noted increased BDNF levels in advanced PD. This pattern may be affected by levodopa treatment, suggesting that elevated BDNF levels in advanced PD could reflect a treatment-related effect rather than disease progression itself. Reduced levels of both GDNF and BDNF were linked to cognitive decline, with BDNF also decreased in PD patients with depression. Serum BDNF levels were associated with motor severity and neuropsychiatric symptoms. BDNF levels in PD may increase with longer disease duration, likely due to levodopa treatment effects. However, lower BDNF levels are seen in cognitive decline and depression, frequent non-motor symptoms of PD. Further research is required to clarify BDNF dynamics and to determine GDNF's role in motor progression and cognitive decline. Show less

Gibberellins have been reported to play both positive and negative roles in arbuscular mycorrhizal (AM) symbioses. Despite extensive characterisation of the role of DELLAs in AM colonisation, studies of gibberellin function have largely been restricted to chemical interventions. Few studies have examined how disruption to gibberellin biosynthesis affects AM symbioses. To explore this further, we obtained Show less

The neurotrophic factor (NTF) family has recently expanded its role beyond neurological conditions, but its involvement in acute inflammatory lung diseases remains largely unclear. Using well-established acute lung injury (ALI) and sepsis models, we demonstrate that brain-derived neurotrophic factor (BDNF), a key NTF, is impaired in pulmonary epithelial cells and negatively correlates with the inflammatory response. Raising the BDNF level alleviates inflammatory lung injury, but these effects are absent in macrophage-deleted mice. Both in vivo and in vitro results show BDNF inhibits macrophage inflammation, and further proteomics analysis identifies macrophage TLR4 as a receptor that BDNF antagonizes via direct binding. The BDNF fragment (aa 104-115) is critical for BDNF-TLR4 interaction, and the corresponding synthetic BDNF-derived dodecapeptide (BDP-12) retains TLR4-antagonistic and anti-inflammatory effects both in vitro and in vivo, without pro-proliferative side effects. In conclusion, our findings reveal that epithelial-derived BDNF prevents macrophage inflammation by directly targeting TLR4 and highlights BDP-12 as a potential therapeutic agent for acute inflammatory diseases. Show less

Pain is one of the leading causes of disability worldwide. Despite the various pharmacological treatments available, patients with chronic pain often remain with significant disabilities and unsatisfactory pain control. Cannabis and cannabinoids are sometimes used in the treatment of chronic pain as they have been shown to be useful in a subset of patients. Some of the adverse effects associated with cannabis use, such as cannabis use disorder (CUD) and cannabis-induced psychosis, have been associated with several genetic variants. Despite this, the paucity of the data or the contradictory results for reported variants limits our ability to use them as genetic markers to personalize cannabis treatment tailored to patients’ genetic background. The aim of this genetic association study was to investigate the link between previously reported genes and cannabinoid response in terms of pain response, CUD and risk of psychotic adverse events in patients with chronic pain. Phone or in person interviews were conducted to document participants’ characteristics, cannabis use and effects, concurrent pharmacotherapy and comorbid conditions. Screening for CUD was performed using the Cannabis Use Disorders Identification Test – Revised. Blood or saliva samples were collected for the genotyping of 18 variants in 11 genes ( One hundred participants were recruited, with blood or saliva samples collected from 77 of them. Two single-nucleotide polymorphisms (SNP) in cannabinoid receptor 1 ( These results suggest alternative allele carriers of rs1049353 and rs2023239 could be at an increased risk of psychotic adverse events related to cannabis use, although additional investigation is required to replicate and confirm these findings. The online version contains supplementary material available at 10.1186/s42238-026-00408-w. Show less

Ulcerative colitis (UC) is subtype of inflammatory bowel disease that is frequently comorbid with anxiety disorders. However, effective dual-targeting therapies are still lacking. Hyperoside (HYP), a natural flavonoid, exhibits anti-inflammatory and neuroprotective properties, yet its potential therapeutic effects on UC and associated anxiety, as well as the underlying mechanisms, remain largely unexplored. A murine model of DSS-induced colitis was established and treated with HYP. Disease activity was assessed through body weight, colon length, and histopathology. Anxiety-like behaviors were evaluated using open field and elevated plus maze tests. Neuroinflammation was examined through immunohistochemistry of BDNF expression and microglial activation. Gut microbiota composition was profiled by metagenomic sequencing, and metabolomic profiling was conducted using the Q300 Kit. Network pharmacology and molecular docking were employed to predict signaling pathways, which were further validated by Western blotting. Additionally, antibiotic depletion experiments were conducted to determine microbiota dependency. HYP administration significantly ameliorated DSS-induced colitis, as evidenced by attenuated weight loss, restored colon length, and improved histopathology. It suppressed pro-inflammatory cytokines (TNF-α, IL-6, IL-1β) and restored intestinal barrier integrity by upregulating Mucin-2 and ZO-1. Furthermore, HYP also alleviated anxiety-like behaviors and mitigated neuroinflammation by increasing BDNF levels and suppressing microglial activation. HYP treatment also restored gut microbial homeostasis, enriching beneficial bacteria such as Our findings demonstrate that HYP effectively alleviates DSS-induced colitis and comorbid anxiety-like behaviors. Its efficacy is dependent on the gut microbiota and is associated with the restoration of microbial homeostasis, enhancement of arginine metabolism, and modulation of the MAPK/PI3K-Akt/NF-κB signaling pathways. HYP represents a promising microbiota-targeting therapeutic candidate for UC and its neuropsychiatric comorbidities. Show less

Prosaposin (PSAP) is a highly conserved glycoprotein in vertebrates. It is known to be transported into lysosomes and facilitates lysosomal hydrolysis. In addition, PSAP is secreted in various body fluids, including serum. Extracellular PSAP is known to function as a trophic factor for neurons, and recent studies have revealed that PSAP plays a pivotal role in dopaminergic neuron homeostasis. This study examined PSAP expression in the mouse pituitary gland, which is one of the principal sources of circulating hormones innervated by dopaminergic neurons. In situ hybridization showed that PSAP mRNA expression was high in the intermediate lobe (IL), whereas the expression was relatively low and sparse in the anterior (AL) and posterior lobes (PL). Immunohistochemical analyses showed that PSAP immunoreactivity was detected as fine, granular structures in the AL and IL. PSAP immunoreactivity was also observed in glial cells and the Herring bodies of the PL. The IL is innervated by axons from dopaminergic neurons in the periventricular hypothalamic area, and neurotrophic factors, such as brain-derived neurotrophic factor (BDNF), are known to be highly expressed in the IL, where they support these neurons. The results of this study indicate that PSAP plays a pivotal role in the pituitary gland, particularly within the IL. Show less

An original dataset based on a national quota sample in the Czech Republic (n = 490, M = 46.09 y/o, 45.7% women) was used to assess susceptibility to medical (COVID-19) and political (Russian invasion of Ukraine) disinformation. Susceptibility to disinformation was assessed using 30 items addressing contemporary topics. To identify the latent structure underlying these items, an exploratory factor analysis (principal-axis factoring with direct oblimin rotation) was conducted. EFA yielded four correlated factors: one specific to COVID-19 hoaxes/misinformation (F1) and three others pertaining to the political (F2), economic (F3), and moral/ethical (F4) dimensions of the Russian war. In order to identify response patterns, all 30 items from 490 participants were subjected to Latent Profile Analysis (LPA) in which the EFA factors served to interpret the five resulting types: a neutral No Strong Opinion type (48%); two disinformation-resilient types-Rational Pro-Ukrainians (22%) and Anti-Russians (7%); and two disinformation-susceptible types-Pro-Russians (15%) and the Generally Disinformed (9%). The discussion addresses the sizable No Strong Opinion type and the correlation between COVID-19 hoaxes and propaganda disinformation (r = 0.47), which supports the 'monological belief system' concept. The identified types can be further followed prospectively and retrospectively within an ongoing panel study. Show less

The maternal perinatal environment shapes brain development and long-term neurodevelopmental trajectories. Probiotic supplementation during this period has emerged as a promising strategy to support healthy neurodevelopmental outcomes through modulation of immune and synaptic plasticity pathways. However, the persistence and specificity of molecular effects in the offspring brain, particularly with respect to sex and brain region, remain poorly understood. We conducted two independent mouse experiments using different probiotic strains and exposure windows to evaluate the long-term transcriptional effects of maternal probiotic supplementation. Time-mated C57BL/6JRj dams received a multi-species probiotic (Ecologic® Panda) from gestational day (GD) 6 until birth, whereas BALB/cJRj dams received Multi-species supplementation induced broad and persistent transcriptional changes in hippocampus and hypothalamus, with generally larger effects in males. Altered transcripts included markers of synaptic plasticity ( These findings highlight that short, targeted maternal probiotic supplementation during the perinatal period is associated with persistent molecular signatures in the adult offspring brain across genetic backgrounds, converging on neuroimmune-related pathways. Show less

Sodium-glucose cotransporter 2 (SGLT2) inhibitors are a relatively new class of antidiabetic agents that lower blood glucose independently of insulin by inhibiting renal SGLT2 in the proximal tubule, thereby increasing urinary glucose and sodium excretion. Empagliflozin (Empa), an FDA-approved SGLT2 inhibitor, exhibits antioxidant, anti-inflammatory, and additional metabolic effects beyond glycemic control. Given the high expression of SGLT2 in the central nervous system and the established link between cognitive impairment, chronic hyperglycemia, oxidative stress, and inflammation, this study investigated Empa's neuroprotective potential on learning and memory deficits in streptozotocin-induced hyperglycemic male Wistar rats. Hyperglycemia was induced using streptozotocin (40 mg/kg/IP), followed by Empa treatment (10 mg/kg/day/PO). Cognitive performance was evaluated using the radial arm water maze, assessing learning and both short-term and long-term memory. Concurrently, hippocampal oxidative stress markers and key molecular mediators, including brain-derived neurotrophic factor (BDNF) and nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB), were measured to elucidate possible underlying neuroprotective mechanisms. Hyperglycemic rats exhibited significant impairments in learning, short-term memory, and long-term memory compared to normoglycemic controls. Empa treatment significantly improved short-term memory, restoring performance to near-control levels. However, its impact on long-term memory was minimal. Unexpectedly, Empa induced only modest, non-statistically significant changes in hippocampal oxidative stress markers and BDNF and NF-κB levels. The findings underscore the complexity of oxidative stress and inflammatory pathways involved in hyperglycemia-associated cognitive impairment. The beneficial effects of Empa on short-term memory may involve alternative mechanisms unrelated to oxidative stress modulation. Further studies involving extended durations, higher dosages, or larger sample sizes are warranted to better elucidate the neuroprotective mechanisms of Empa. Show less