👤 Ashna Gupta

Chronic stress is increasingly acknowledged as a pivotal precipitating factor in the pathogenesis of neuropsychiatric and neurodegenerative disorders, notably including depression and Alzheimer's disease (AD). Astrocytes, which constitute the predominant population of glial cells involved in the maintenance of synaptic homeostasis, the recycling of neurotransmitters, and the provision of metabolic support, display a pronounced susceptibility to sustained exposure to stress. The deleterious effects of astrocytic dysfunction instigate a series of neuroinflammatory and synaptic modifications that undermine both cognitive and emotional resilience. This review articulates the mechanistic interactions between stress-induced astrocyte dysfunction, neuroinflammatory signaling, and compromised neuroplasticity, underscoring the converging pathways that are implicated in both depression and AD. A thorough synthesis of the literature from 2020 to 2025 was conducted utilizing databases such as PubMed, Scopus, and Web of Science, with an emphasis on molecular, in vitro, in vivo, and translational studies that examine the modulation of astrocytic function under conditions of chronic stress and its pertinence to depression and AD. The chronic activation of the hypothalamic-pituitary-adrenal (HPA) axis precipitates morphological alterations, diminished expression of glutamate transporters (GLT-1/EAAT2), disrupted brain-derived neurotrophic factor (BDNF) signaling, and an augmented release of pro-inflammatory cytokines (IL-1β, IL-6, TNF-α) from astrocytes. These biochemical alterations exacerbate excitotoxicity, disturb monoaminergic and glutamatergic neurotransmission, and hasten synaptic degeneration. In the context of depression, this phenomenon is manifested as impaired mood regulation and a decline in neurogenesis. In AD, it synergistically interacts with amyloid-beta and tau pathologies to facilitate progressive cognitive impairment. Both conditions exhibit a common feature of diminished neurosignaling plasticity, which limits the brain's capacity for adaptation and repair. Astrocyte dysfunction constitutes a central mechanistic nexus wherein chronic stress, neuroinflammation, and synaptic pathology intersect to promote the progression of depression and AD. The targeting of astrocytic health via the modulation of reactive astrocyte phenotypes, the restoration of glutamate homeostasis, and the enhancement of neurotrophic signaling emerges as a promising therapeutic avenue for alleviating stress-related neurodegeneration and mood disorders. Show less

Cadmium (Cd) is a potent neurotoxic heavy metal associated with cerebral oxidative disturbances. The beta-lactam antibiotic ceftriaxone has been known to modulate the expression of GLT-1, the primary glutamate transporter. This research has been framed to evaluate the potential neurodefensive activity of ceftriaxone against cadmium chloride (CdCl Show less

Huntington's disease (HD) is a progressive neurodegenerative disorder marked by motor, cognitive, and psychiatric impairments, with depression as a major comorbidity. Existing treatments for Huntington-related depression are inadequate, highlighting the need for strategies that target molecular mechanisms underlying mood dysregulation. This review examines the mechanistic interplay between environmental enrichment (EE), a paradigm enhancing sensory, cognitive, and social stimulation and Neuropeptide S (NPS), a neuropeptide involved in stress modulation and emotional regulation. It focuses on their potential synergistic effects in modulating depression-associated molecular pathways in HD. EE activates signalling cascades that promote synaptic plasticity and neurogenesis, including the upregulation of brain-derived neurotrophic factor (BDNF), enhanced activation of cAMP response element-binding protein (CREB), and remodelling of glutamatergic and GABAergic transmission. NPS exerts antidepressant-like effects by attenuating hyperactivity of the hypothalamicpituitary- adrenal (HPA) axis, modulating corticotropin-releasing factor (CRF) signalling, and influencing monoaminergic systems. Evidence indicates that EE may enhance NPS receptor (NPSR1) expression and downstream intracellular calcium signalling, reinforcing adaptive plasticity in the striatum and prefrontal cortex regions vulnerable in HD. Integrating EE with NPS-targeted therapy could provide a multimodal approach to restore molecular homeostasis and alleviate depressive phenotypes in HD. Further research should elucidate optimal intervention timing, dose-response relationships, and potential cross-talk between EE-induced BDNF pathways and NPS-mediated stress resilience for translational application in neurodegenerative depression. Show less

Western diet-induced cognitive dysfunction is a rapidly emerging health challenge driven by excessive intake of high-fat, high-sugar, and ultra-processed foods. These dietary patterns promote neuroinflammation, oxidative stress, insulin resistance, gut dysbiosis, and blood-brain barrier (BBB) disruption, ultimately leading to synaptic dysfunction and cognitive decline. Crocetin, an apocarotenoid derived from saffron and Show less

To understand the relative contributions of 5' UTR elements to translation output, we performed a comprehensive analysis of upstream open reading frames (uORFs) in the 5' UTRs of the BDNF (brain-derived neurotrophic factor) transcripts. Predicted uORFs were identified in 14 out of 17 BDNF RefSeq transcript isoforms, and we experimentally validated five of these transcripts as being uORF-repressed, suggesting that uORF elements play an important role in shaping the protein output from this locus. We explored several approaches to disrupt BDNF uORF function. Deletion of a 5' UTR exon in BDNF v11 (containing eight predicted uORFs), in order to simulate an exon skipping outcome, resulted in pronounced upregulation in a reporter construct system. This effect was found to be partially uORF-dependent but was also dependent on the disruption of an RNA secondary structure element. However, this transcript variant was found to not be expressed in human brain. Conversely, direct disruption of a single uORF start codon in the widely expressed BDNF v4 transcript variant using an adenine base editing approach resulted in a ∼1.8-fold upregulation of endogenous BDNF protein expression in cell culture. This study characterizes uORF-mediated regulation of the BDNF locus and demonstrates the potential for BDNF protein upregulation via base editing-mediated uORF disruption. Show less

Air pollution exposure is associated with increased cardiovascular morbidity and mortality worldwide. Previous studies provide a causal relationship between exposure to particulate matter (PM) and atherosclerosis development. We have previously demonstrated increased aortic atherosclerosis and adverse metabolic effects in hyperlipidemic mice exposed to ambient ultrafine PM. However, the underlying mechanisms by which ambient PM promotes systemic effects leading to worsened atherosclerosis remain unknown. We have recently shown that the gut microbiota composition was altered in mice exposed to re-aerosolized PM in the ultrafine-size range for 10 weeks. We hypothesized that sub-chronic exposure to ultrafine PM induces gut dysbiosis in association with systemic prooxidative effects and atherosclerotic lesion development. Male apolipoprotein E knockout (ApoE Show less

Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by memory loss, cognitive decline, and neuronal dysfunction. Despite thorough research efforts, effective disease-modifying treatments have yet to be discovered. MicroRNAs (miRNAs), small noncoding RNAs that control gene expression after transcription, have become key factors in AD development. Changes in miRNA levels influence critical molecular pathways such as amyloid precursor protein (APP) processing, tau phosphorylation, oxidative stress, neuroinflammation, and synaptic plasticity, all of which contribute to neuronal damage. By increasing β-secretase (BACE1) activity, downregulation of miR-29a/b and miR-107 encourages the buildup of amyloid-β (Aβ) and the development of plaques. Through the deregulation of the CDK5 and MAPK pathways, overexpression of miR-125b and decreased levels of miR-132/212 lead to tau hyperphosphorylation. While oxidative stress-associated miRNAs like miR-34a and miR- 21 worsen mitochondrial malfunction and neuronal death, pro-inflammatory miRNAs like miR-146a and miR-155 cause NF-κB-mediated signalling and glial activation. Circulating miRNAs found in blood and cerebral fluid are potential, minimally invasive indicators for tracking the course of a disease and making early diagnoses. Additionally, therapeutic manipulation with antagomiRs or miRNA mimics has the potential to prevent neurodegeneration and restore normal gene regulation. This review deciphers the molecular mechanisms underlying miRNA dysregulation in AD and explores their translational potential as biomarkers and therapeutic targets. A comprehensive understanding of miRNA-protein interaction networks could facilitate the development of targeted, precision- based interventions for Alzheimer's disease. Show less

Single Particle Tracking (SPT) is a powerful technique for elucidating the dynamic behaviours of macromolecules within live cells. However, SPT's application to subcellular environments is hampered by the error-proneness of tracking at high particle velocities and densities and the lack of tools to assess trajectory reliability. Here, we introduce FidlTrack, a methodology that benchmarks and improves SPT fidelity. It contains three modules: a parameter optimiser that uses synthetic ground truth SPT data to determine the fidelity-maximising experimental and tracking settings; Structure-aware tracking, that exploits the information provided by organelle structures to constrain particle tracking algorithms; And a tracking quality evaluator that detects, quantifies and removes error-prone ambiguous track segments. Together these tools allow the rational design of SPT experiments, resolving the motion in tight and convoluted organelles, and provide up to 2-fold enrichment in accurate data. We showcase FidlTrack's utility for reliably tracking proteins in the cytosol, mitochondria and endoplasmic reticulum (ER). Further, we demonstrate its efficacy by analysing ER protein dynamics at exit sites, resolving BACE1 amyloidogenic cleavage of the amyloid precursor protein and characterising the spatiotemporal binding dynamics of an ER-targeted intrabody. FidlTrack is provided as a universal open-access platform that can be incorporated into any SPT pipeline. Show less

Of all the skin malignancies, melanoma is the most invasive and challenging to treat. Melanoma patients have a poor prognosis and a high recurrence rate despite advancements in treatment. There is substantial evidence that plant-derived bioactives prevent and treat melanoma effectively. The naturally occurring bioactive compound dalbergin, found in certain species of the The online version contains supplementary material available at 10.1007/s40203-026-00604-9. Show less

Insulin resistance (IR), commonly associated with obesity, is linked to a range of metabolic and immune-related disorders in the contemporary human population. Nevertheless, it is evolutionary well-conserved, suggesting its potential survival advantages to our ancestors. This review aims to explore the intricate interplay between IR and the immune system as well as its implications for the development of immune-metabolic and allergic diseases in the modern era. From an evolutionary medicine perspective, the longevity of ancient humans relied on energy storage to endure food shortages and effectively activate the immune system against various diseases. Under normal conditions, insulin induces glycogen and triglyceride synthesis in the liver and adipose tissues. However, IR directs more glucose to insulin-independent tissues, such as the immune system, which are critical for survival in adverse conditions. The persistent IR in our current lifestyle promotes low-grade inflammation, accompanied by various metabolic and allergic disorders. Critically, this evolutionary mismatch not only explains disease susceptibility but also informs therapeutic design to target immune-metabolic crosstalk. Moreover, our evolutionary analysis demonstrates that the genomic regions near the PTEN, IL27, and NUPR1 genes could play an important role in this interaction across diverse populations. Show less

Previous studies indicate that ambulance personnel have an increased risk of ill health. Shift work and time spent on physical behaviours during work and leisure are factors that could be related to health, however the research is limited. Thus, the aim of this study was to describe patterns of physical behaviours during and after work among Swedish ambulance personnel and to analyse the associations between physical behaviours and different work shifts. In this observational study, the physical behaviours of 63 ambulance personnel were measured over seven days using two accelerometers. Accelerometer data was processed using the MATLAB program Acti4, to identify physical behaviours i.e. sleep, being sedentary, light physical activity (LPA), and moderate to vigorous physical activity (MVPA), during and after work. To determine the association between shift types (independent) and patterns of physical behaviours (dependent), a Multivariate Analysis of Variance was performed on data processed according to compositional data analysis. At work, the highest proportion of both MVPA and being sedentary occurred during day shifts, compared to night and 24-h shifts (MVPA: 7% vs 4% and 5%; sedentary time: 62% vs 44% and 54% respectively). Night and 24-h shifts included 31% and 18% sleep, respectively. During the after-work periods, the highest proportions of MVPA were observed after 24-h shifts (8%). Overall, there was no statistically significant difference in physical behaviours during work and after work for various shift types. However, in a sub-analysis restricted to night and 24-h shifts, a statistically significant association between shift type and composition of physical behaviours during work was observed (η In general, ambulance personnel were physically active both during and after work. At the same time, work hours entailed a substantial amount of sedentary time. Shift type was not associated with the pattern of physical behaviours among ambulance personnel. However, during 24-h shift a lower proportion of the time was spent sleeping compared to during night shift. Studies with larger sample sizes are needed to confirm these results. The online version contains supplementary material available at 10.1186/s12889-026-27335-y. Show less

Risk estimation tools have been developed to predict coronary heart disease (CHD) in type 2 diabetes (T2D). To evaluate augmentation following the addition of lipoprotein(a) [Lp(a)] to risk calculation, we performed a pilot study. A total of 90 successive T2D patients were included. Details of clinical and biochemical features were obtained. Lp(a) was determined using ELISA. CHD risk estimation was performed using Framingham, QRISK-3, SCORE-2D, INTERHEART, and European Atherosclerosis Society (EAS) algorithms with and without Lp(a). Descriptive statistics are reported. Mean age of patients was 55.0 ± 8 years, BP systolic/diastolic 133.7 ± 12/95.0 ± 9 mm Hg, body mass index (BMI) 26.0 ± 1.9 kg/m Substantial variation in coronary artery disease (CAD) risk prediction using various clinical algorithms is observed in T2D. The EAS algorithm provides the most robust estimate. The addition of Lp(a) to the risk algorithms augments risk stratification significantly. The results of this pilot study need confirmation with larger prospective studies. Show less

We recently demonstrated the utility of the 'TB Concentration & Transport' kit for bio-safe, ambient-temperature transport of dried sputum samples on Trans-Filter, along with the 'TB DNA Extraction' kit for efficient DNA extraction from Trans-Filter for use in the Line Probe Assay (LPA) for diagnosing drug-resistant tuberculosis (TB). The present study aimed to develop and evaluate a new 'Quick TB DNA Extraction' kit ('Quick DNA' kit) for rapid DNA isolation from Trans-Filter samples and assess its compatibility with LPA for the detection of multidrug-resistant TB (MDR-TB). Consecutive presumptive TB/MDR-TB/XDR-TB patients (n = 1823) were screened using LED-FM and/or TBDetect microscopy at 2 Designated Microscopy Centres associated with the National Institute of Tuberculosis and Respiratory Diseases (NITRD), New Delhi. Smear-positive samples (n = 235) were processed in duplicate using the 'TB Concentration and Transport' kit. Dried sputum on bio-safe Trans-Filters was transported at ambient temperature, along with sputum samples, in a 3-layer packing in cooling conditions to NITRD Hospital (a National Reference Laboratory). DNA was extracted from Trans-Filters using 'Quick DNA' kit and the 'TB DNA Extraction' kit, and from sputum using Hain's GenoLyse® DNA Extraction kit for first-line LPA for MDR-TB detection. Quick Kit-LPA and Kit-LPA (LPA with DNA extracted from Trans-Filter using 'Quick DNA' kit and 'TB DNA Extraction' kit, respectively) showed similar sensitivity of 88.9% (95% CI: 65.3-98.6) and 88.5% (95% CI: 69.9-97.5) and specificity of 100% (95% CI: 98.2-100) and 99.5% (95% CI: 97.3-99.9) for rifampicin and isoniazid resistance detection, respectively against Direct-LPA (LPA with DNA extracted from sputum samples using GenoLyse kit). User feedback obtained from laboratory technicians corroborated that the one-step 'Quick DNA' kit procedure was rapid (5 minutes), easy to perform, seamlessly integrated with LPA testing, and was suitable as a replacement for Kit-LPA or Direct-LPA. The gap between drug-resistant TB detection and treatment initiation can be narrowed through Universal-Drug Susceptibility Testing by implementing (i) bio-safe and ambient temperature transport of sputum from primary healthcare centres to central laboratories, and (ii) by using Quick Kit-LPA over Direct-LPA in patients residing in remote areas. Show less

Ultrasound (US)-guided supine percutaneous nephrolithotomy (PCNL) is increasingly being adopted. The aim of this study was to assess the safety of lower vs non-lower pole access (non-LPa) in supine US-guided PCNL. This study was a retrospective cohort analysis of 228 patients who underwent single-access US-guided supine PCNL between March 2023 and June 2024 and were categorized into lower (n = 162), interpolar (n = 42), and upper pole (n = 21) access categories. Baseline demographics, stone characteristics, and intraoperative details were analyzed and compared between the groups. Safety outcomes, including 30-day postoperative total and major complications (based on Clavien-Dindo classification), as well as pain scores, were compared between lower pole access (LPa) and non-LPa. Baseline clinical and stone characteristics were comparable between the groups. Non-LPa was more frequently performed on the right side ( When performing US-guided supine PCNL, LPa has a superior safety profile, resulting in fewer major and total complications compared with non-LPa. Show less

To delineate organ-specific and systemic drivers of metabolic dysfunction-associated steatotic liver disease (MASLD), we applied integrative causal inference across clinical, imaging, and proteomic domains in individuals with and without type 2 diabetes (T2D). Bayesian network analyses and complementary two-sample Mendelian randomization were used to quantify causal pathways linking adipose distribution, glycemia, and insulin dynamics with liver fat in the IMI-DIRECT prospective cohort study. Data included frequently sampled metabolic challenge tests, MRI-derived abdominal and hepatic fat content, serological biomarkers, and Olink plasma proteomics from 331 adults with new-onset T2D and 964 adults without diabetes, with harmonized protocols enabling replication. High basal insulin secretion rate (BasalISR), estimated via C-peptide deconvolution, emerged as the primary potential causal driver of liver fat accumulation in both cohorts. BasalISR, a clearance-independent measure of β-cell insulin output distinct from peripheral insulin levels, was independently linked to hepatic steatosis. Visceral adipose tissue exhibited bidirectional associations with liver fat, suggesting a self-reinforcing metabolic loop. Of 446 analyzed proteins, 34 mapped to these metabolic networks (27 in the non-diabetes network, 18 in the T2D network, and 11 shared). Key proteins directly associated with liver fat included GUSB, ALDH1A1, LPL, IGFBP1/2, CTSD, HMOX1, FGF21, AGRP, and ACE2. Sex-stratified analyses identified GUSB in females and LEP in males as the strongest protein predictors of liver fat. BasalISR may better capture early β-cell-driven disturbances contributing to MASLD. These findings outline a multifactorial, sex- and disease stage-specific proteo-metabolic architecture of hepatic steatosis and identify potential biomarkers or therapeutic targets. Show less

Neuroplasticity, the brain's capacity to adapt structurally and functionally in response to experiences, is a key factor in recovery from neurological conditions. Growing interest has focused on physical and emotional interventions as potential modulators of neuroplastic processes. A narrative review was conducted using a structured PubMed search of articles published between January 2018 and March 2023. Studies were included if they examined physical activity, emotional well-being, or cognitive training, with outcomes relevant to neuroplasticity. Publications outside these parameters, non-English studies, and case reports were excluded. Twenty-seven articles met the inclusion criteria. The literature described a range of possible influences. Exercise was frequently linked with markers such as brain-derived neurotrophic factor (BDNF) and synaptic plasticity. Emotional interventions, including stress reduction and mindfulness, were reported to have variable effects on neural adaptation. Cognitive training was discussed in relation to functional recovery in conditions such as stroke and traumatic brain injury (TBI). Findings across studies were heterogeneous, and conclusions were limited by differences in study designs and outcome measures. Current evidence suggests that both physical and emotional interventions may influence neuroplasticity, though results are not uniform. The diversity of methodologies and measured outcomes indicates that more rigorous and standardized research is needed. While the reviewed literature points to potential benefits of physical and emotional interventions in modulating neuroplasticity, evidence remains preliminary. Further high-quality longitudinal studies are required to clarify their role in neurological rehabilitation and clinical care. Show less

One hundred participants aged 40-65 with subjective complaints of poor memory were randomized into two groups: 300 mg of LN19184 or placebo, once daily for 120 days. At baseline and days 15, 30, 60, and 120, two neuropsychological batteries, the Rey's Auditory Verbal Learning Test (RAVLT) and the Cambridge Neuropsychological Test (CANTAB), were used to assess cognitive function, and the Athens Insomnia Scale was used to evaluate sleep quality. Serum BDNF levels and safety parameters were also assessed. LN19184 improved each measured RAVLT outcome compared to placebo. Supplementation improved proactive interference ( This pilot trial provides early empirical evidence demonstrating that a novel extract blend of Clinicaltrials.gov, identifier CTRI/2020/08/027368. Show less

In recent years, brain-derived neurotrophic factor (BDNF) and matrix metalloproteinase-9 (MMP-9) have garnered interest for their involvement in epilepsy. This study evaluated the serum levels of BDNF and MMP-9 in pediatric patients with epilepsy compared to healthy controls and assessed the effect of valproate on serum BDNF and MMP-9. Children aged 1 year to 12 years, diagnosed with epilepsy (n=30), and age-matched healthy controls (n=30) were included. All participants were followed up for 16 weeks and assessed for changes in serum BDNF and MMP-9 levels. Children with epilepsy had significantly lower BDNF and higher MMP-9 levels compared to healthy controls at baseline. Following 16 weeks of treatment with valproate, BDNF levels were increased significantly ( The findings suggest the involvement of BDNF and MMP-9 in the pathogenesis of epilepsy. Serum BDNF and MMP-9 levels were increased and decreased, respectively, following valproate treatment in children with epilepsy. Hence, BDNF and MMP-9 could be potential biomarkers in pediatric epilepsy. Large sample sizes and long-term studies are warranted to confirm the findings. Show less

Amyloidosis derived from apolipoprotein C-II (AApoCII) is a recently discovered, rare form of amyloidosis. Data on clinical presentations and natural history are very limited. This study defines the clinicopathologic, proteomic, and outcome characteristics of renal AApoCII. Case series. Twenty-five renal AApoCII cases were identified from the Mayo Clinic Tissue Proteomics Laboratory archives from January 2008 through January 2024. All patients were White, 19 were≥65 years old at diagnosis, and 18 were female. Seven had a family history of chronic kidney disease (CKD). Patients presented with proteinuria (median 3.3g/day) and reduced kidney function (n=16; median creatinine, 1.6mg/dL). No patients had clinical evidence of other organ involvement by amyloidosis or features of monogenic hypertriglyceridemia. Histologically, amyloid deposits were often weakly positive for Congo red and involved glomeruli in all cases (with a nodular pattern in 22), whereas extraglomerular involvement was less common and generally mild. Proteomic analysis revealed abundant spectra for Apo C-II and for all 3 amyloid signature proteins (apolipoprotein E, apolipoprotein A-IV, and serum amyloid P) in all cases and detected an Apo C-II variant in 14 (K19T [p.Lys41Thr] in 12 and E47V [p.Glu69Val] in 2). Among 22 patients with follow-up information available, there were 12 end-stage kidney disease (ESKD) events and 2 deaths without ESKD during an average follow-up period of 75.5±12.5 (SE) months. Retrospective design, small sample size, APOC2 gene sequencing performed in a smaller subset. AApoCII mostly affects the kidney and manifests in the elderly with proteinuria and CKD. A minority of these patients had a family history of kidney disease. Kidney failure occurred in about half, whereas overall survival was more favorable. Amyloidosis derived from apolipoprotein C-II (AApoCII) is very rare, and data on clinicopathologic and outcome characteristics are scant. This study of 25 patients with AApoCII diagnosed by mass spectrometry at the Mayo Clinic Tissue Proteomics Laboratory revealed that most patients were elderly White females who presented with proteinuria and reduced kidney function, without involvement of other organs. A family history of kidney disease was often lacking. Pathologically, most cases exhibited nodular glomerular involvement. Proteomic analysis revealed abundant protein spectra for Apo C-II and amyloid signature proteins, and identified an Apo C-II variant in over half of cases (most commonly the p.Lys41Thr variant). The cumulative incidence of kidney failure was over 50% at 5 years follow-up. Only 4 deaths occurred over an average follow-up period of 76 months. Show less

Familial chylomicronemia syndrome (FCS) is a rare autosomal recessive disorder. This study aimed to analyze the genotype distribution of FCS-causing genes in the United Kingdom. Data were anonymously collated from 2 genetic testing laboratories providing national genetic diagnosis services for severe hypertriglyceridemia in the United Kingdom. As of December 2023, 880 individuals underwent genetic testing for FCS. The mean (SD) age at the time of genetic testing was 42.5 (15.3) years. After genotyping, 12.9% of the individuals ( The genetic architecture of FCS in the United Kingdom is complex, with a substantial proportion affected by non- Show less

The blood-brain barrier (BBB) presents a critical challenge in treating central nervous system (CNS) disorders, particularly aggressive brain cancers such as glioblastoma (GBM) and medulloblastoma (MB). RNA therapies exploit endogenous cellular machinery to modulate gene expression, targeting previously undruggable pathways. RNA and CRISPR gene therapies hold transformative potential for brain cancer but demand breakthroughs for enhanced drug transport across the BBB. While clinical achievements in non-CNS diseases validate their efficacy, interdisciplinary collaboration is essential to advance nanoparticles (NPs) engineering, immune evasion, and non-invasive delivery for CNS applications. NPs are indispensable for advancing RNA therapies in brain cancer, with lipid nanoparticles (LNPs) and viral vectors leading clinical translation. Innovations in targeting (e.g., GLUT1, RVG peptide, ApoE mimetic peptide) and non-invasive delivery (e.g., focused ultrasound) are critical to overcome the BBB limitations. This review highlights the different strategies that can be utilized to deliver RNA-based therapies to the brain and summarizes the recent clinical efforts to deliver the RNA. Show less

Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by memory loss, cognitive decline, and neuroinflammation, primarily mediated by microglia. In this study, we investigate the role of adenylate kinase 5 (AK5) in microglial function and its association with AD-related pathology. Analysis of brain tissues from AD patients and AD model mice revealed a significant reduction in AK5 expression. In vitro knockdown of AK5 in microglial cells attenuated lipopolysaccharide-induced pro-inflammatory responses, including decreased nitric oxide and tumor necrosis factor-alpha production, while enhancing phagocytic activity. Moreover, AK5 silencing induced metabolic reprogramming, evidenced by reduced lipid droplet accumulation and adipose triglyceride lipase mRNA levels, alongside increased farnesoid X receptor mRNA expression. Genome-wide association studies further identified two AK5 single nucleotide polymorphisms (SNPs), rs59556669 and rs75224576, significantly associated with hippocampal and amygdala atrophy as well as increased AD risk. Notably, these SNPs were not in linkage disequilibrium with the apolipoprotein E (APOE) locus, suggesting that AK5 may represent an independent genetic risk factor for AD. Collectively, our findings identify AK5 as a key regulator of microglial immune and metabolic function. The presence of AK5 variants may contribute to AD susceptibility, and AK5 expression or genetic status could serve as a potential biomarker for early risk assessment. Further exploration of AK5-targeted interventions may provide new therapeutic avenues for AD prevention or treatment. Show less

Neurological disorders arising from structural and functional disruptions in the nervous system present major global health challenges. This review examines the intricacies of various cellular signaling pathways, including Nrf2/Keap1/HO-1, SIRT-1, JAK/STAT3/mTOR, and BACE-1/gamma-secretase/MAPT, which play pivotal roles in neuronal health and pathology. The Nrf2-Keap1 pathway, a key antioxidant response mechanism, mitigates oxidative stress, while SIRT-1 contributes to mitochondrial integrity and inflammation control. Dysregulation of these pathways has been identified in neurodegenerative and neuropsychiatric disorders, including Alzheimer's and Parkinson's diseases, characterized by inflammation, protein aggregation, and mitochondrial dysfunction. Additionally, the JAK/STAT3 signaling pathway emphasizes the connection between cytokine responses and neuroinflammation, further compounding disease progression. This review explores the crosstalk among these signaling networks, elucidating how their disruption leads to neuronal decline. It also addresses the dual roles of these pathways, presenting challenges in targeting them for therapeutic purposes. Despite the potential benefits of activating neuroprotective pathways, excessive stimulation may cause deleterious effects, including tumorigenesis. Future research should focus on designing multi-targeted therapies that enhance the effectiveness and safety of treatments, considering individual variabilities and the obstacles posed by the blood-brain barrier to drug delivery. Understanding these complex signaling interactions is crucial for developing innovative and effective neuroprotective strategies that could significantly improve the management of neurological disorders. Show less

BACE-1 is a prime therapeutic target for treatment of Alzheimer disease as it cleaves the β-site of APP leading to formation of amyloid plaques. A dataset of 229 benzo-fused heterocyclic compounds reported as BACE-1 inhibitors was utilized to develop various QSAR models (regression and classification) utilizing Monte Carlo algorithm. The dataset was randomly split into different sets for generation of models. The IIC and CCC were calculated to increase the predictive ability of generated models. Among various models, split-1 of Model-1 demonstrated the highest robustness and predictive accuracy for pIC Show less

Neuropathological diseases involve the death of neurons and the aggregation of proteins with altered properties in the brain. Proteins are used at the molecular level to categorize neurodegenerative disorders, emphasizing the importance of protein-processing mechanisms in their development. Natural herbal phytoconstituents, such as icariin, have addressed these neurological complications. Icariin, the principal compound in Epimedium, has been studied for its antineuroinflammatory, anti-oxidative, and antiapoptotic properties. Recent scientific investigations have shown that icariin exhibits promising therapeutic and preventive properties for mental and neurodegenerative disorders. In preclinical, icariin has been shown to inhibit amyloid development and reduce the expression of APP and BACE-1. Previous preclinical studies have demonstrated that icariin can regulate proinflammatory responses in neurological conditions like Parkinson's disease, depression, cerebral ischemia, ALS, and multiple sclerosis. Studies have shown that icariin possesses neuroprotective properties by modulating signaling pathways and crossing the blood-brain barrier, suggesting its potential to address various neurocomplications. This review aims to establish a foundation for future clinical investigations by examining the existing literature on icariin and exploring its potential therapeutic implications in treating neurodegenerative disorders and neuropsychiatric conditions. Future research may address numerous concerns and yield captivating findings with far-reaching implications for various aspects of icariin. Show less

Branched-chain amino acids (BCAA) are essential requirements for overall protein turnover, signalling and energy balance, and dysregulation of their metabolic pathway has been associated with many pathophysiological events. Despite the importance of BCAA in human health, our understanding of their metabolic regulation is limited. Here, we present evidence that G protein-coupled oestrogen receptor (GPER) activation inhibits the key BCAA metabolic regulatory enzyme branched-chain α-keto acid dehydrogenase complex (BCKDH) by phosphorylating S293. Inhibition of BCKDH results in leucine, isoleucine and valine accumulation in cells. Interestingly, GPER did not alter the levels of the kinase BCKDK and the phosphatase PPM1K, which regulate BCKDH activity, but activated MAPK signalling. Using gene silencing, we identified that JNK intercedes GPER-mediated BCKDH inhibition. Together, our results demonstrate that GPER inhibits BCAA metabolism through JNK signalling. Show less

The increased prevalence of opioid use disorder (OUD) makes it imperative to disentangle the biological mechanisms contributing to individual differences in OUD vulnerability. OUD shows strong heritability, however genetic variants contributing to vulnerability remain poorly defined. We performed a genome-wide association study using over 850 male and female heterogeneous stock (HS) rats to identify genes underlying behaviors associated with OUD such as nociception, as well as heroin-taking, extinction and seeking behaviors. By using an animal model of OUD, we were able to identify genetic variants associated with distinct OUD behaviors while maintaining a uniform environment, an experimental design not easily achieved in humans. Furthermore, we used a novel non-linear network-based clustering approach to characterize rats based on OUD vulnerability to assess genetic variants associated with OUD susceptibility. Our findings confirm the heritability of several OUD-like behaviors, including OUD susceptibility. Additionally, several genetic variants associated with nociceptive threshold prior to heroin experience, heroin consumption, escalation of intake, and motivation to obtain heroin were identified. Tom1, a microglial component, was implicated for nociception. Several genes involved in dopaminergic signaling, neuroplasticity and substance use disorders, including Brwd1, Pcp4, Phb1l2 and Mmp15 were implicated for the heroin traits. Additionally, an OUD vulnerable phenotype was associated with genetic variants for consumption and break point, suggesting a specific genetic contribution for OUD-like traits contributing to vulnerability. Together, these findings identify novel genetic markers related to the susceptibility to OUD-relevant behaviors in HS rats. Show less