👤 Avisek Mondal

Alzheimer's disease (AD) is a progressive neurodegenerative disorder marked by synaptic dysfunction and neuronal loss, with glutamate excitotoxicity playing a central role in its pathology. The astrocytic glutamate transporter EAAT2, responsible for maintaining synaptic glutamate homeostasis, is significantly downregulated in AD. Restoration of EAAT2 expression presents a promising therapeutic strategy. This study explores the potential of modulating the Wnt/β-catenin signaling pathway to enhance EAAT2 levels by targeting the Axin-1/β-catenin interaction. Through virtual screening of 120,993 compounds from the Asinex-CNS database, five lead candidates were identified based on molecular docking, MMGBSA scores, and drug-likeness parameters. Advanced in-silico analyses-including Principal Component Analysis, Dynamic Cross-Correlation Mapping, molecular dynamics simulations, and MM/PBSA binding free energy calculations-highlighted BAS 04937103 as the most promising compound for disrupting β-catenin degradation. In vitro validation using C6 glioma cells and primary astrocytic cultures demonstrated that BAS 04937103 enhanced β-catenin stabilization and nuclear translocation, reduced Axin-1 expression, and significantly upregulated EAAT2 levels. These molecular effects corresponded with decreased extracellular glutamate concentrations, improved glutamate uptake, and reduced oxidative stress. Collectively, these findings establish BAS 04937103 as a novel modulator of the Axin/β-catenin interaction with therapeutic potential in mitigating glutamate-mediated neurotoxicity in Alzheimer's disease. Show less

The relation between hepatic ChREBP level and insulin sensitivity remains equivocal. Our study, however, provides compelling evidence that hepatic ChREBP depletion can significantly enhance insulin sensitivity in high-fat and sucrose-fed mice. We have identified that transcriptional induction of hepatic PTEN is driven by ChREBP. Mechanistically, two critical stimuli are elicited in the hepatic ChREBP knockdown condition. The PTEN level is reduced for one stimulus, thereby promoting hepatic insulin sensitivity. The second stimulus, where reduced hepatic PTEN leads to the enhanced release of FGF21, spreads systemic insulin sensitivity. These findings identify hepatic ChREBP as a critical modulator of systemic insulin signaling and suggest that ChREBP downregulation may lead to protection against insulin resistance. Building on this, our molecular dynamics simulation analysis has led to the discovery of a small molecule, Quercetin, that sequesters ChREBP in the cytosol. We report that Quercetin treatment can sequester ChREBP in the cytosol and abrogate high-fat and sucrose-fed-mediated ChREBP nuclear translocation, thereby mimicking the insulin-sensitizing abilities of the hepatic ChREBP knockdown condition. These findings have significant therapeutic implications, suggesting that liver-selective downregulation of ChREBP could protect against systemic insulin resistance that frequently develops early in the pathogenesis of NAFLD and T2DM. Show less

Copy number alterations (CNAs) are significant in tumor initiation and progression. Identifying these aberrations is crucial for targeted therapies and personalized cancer diagnostics. Next-generation sequencing (NGS) methods present advantages in scalability and cost-effectiveness, surpassing limitations associated with reference assemblies and probe capacities in traditional laboratory approaches. This retrospective study evaluated CNAs in 50 FFPE tumor samples (breast cancer, ovarian carcinoma, pancreatic cancer, melanoma, and prostate carcinoma) using Illumina's TruSight Oncology 500 (TSO500) and the Affymetrix Oncoscan Molecular Inversion Probe (OS-MIP) (ThermoFisher Scientific, Waltham, MA, USA). NGS analysis with the NxClinical 6.2 software demonstrated a high sensitivity and specificity (100%) for CNA detection, with a complete concordance rate as compared to the OS-MIP. All 54 known CNAs were identified by NGS, with gains being the most prevalent (63%). Notable CNAs were observed in Show less

We have extracted and characterized Phasa fish (Setipinna phasa) oil for the first time to evaluate the anti-obesity and related anti-inflammatory effects on obese mice. Inbred male albino BALB/c mice were segregated into three categories: control (C), Obese control group (OC), and Phasa fish oil treated group (TX). To establish the potentiality of Setipinna phasa oil for its anti-obesity and anti-inflammatory properties, it was extracted and characterized using GC-MS method. To evaluate the anti-obesity effect, different parameters were considered, such as body weight, lipid composition, obesity, and obesity associated inflammation. The physicochemical characteristics of Phasa fish oil revealed that the oil quality was good because acid value, peroxide value, p-anisidine value, Totox value, refractive index, and saponification value were within the standard value range. The GC-MS study explored the presence of fatty acids beneficial to health such as Hexadec-9-enoic acid; Octadec-11-enoic acid; EPA, DHA, Methyl Linolenate, etc. The application of Setipinna phasa oil on the treated mice group acutely lowered body weight and serum lipid profile compared to the obese group. In connection with this, leptin, FAS, and pro-inflammatory cytokines TNF-α genes expression were downregulated in the treated group compared to the obese group. The Phasa oil treated group had an elevated expression of PPAR-α, adiponectin, LPL gene, and anti-inflammatory markers IL-10 and IL-1Ra compared to the obese group. This study suggests that Phasa fish oil, enriched with essential fatty acid, might be used as an anti-obesity and anti-inflammatory supplement. Show less

To compare the level of pro and anti-inflammatory cytokines, and angiogenic mediators between Rheumatoid arthritis (RA) patients with and without subclinical synovitis (SS) in remission state, to find the correlation of these mediators with Greyscale synovitis (GSS) and power Doppler (PD) scores, and to find the probable predictor/s of SS. 52 RA patients in remission state were recruited and subdivided into with and without SS group by Ultrasonography (USG) of 14 joints. Total GSS and PD scoring was done. The serum levels of the pro/anti-inflammatory cytokines and angiogenic mediators were compared between groups, and correlation and regression analysis were done with GSS and PD scores. 63.46% patients had USG evidence of SS. Patients with SS had significantly higher levels of pro-inflammatory and angiogenic mediators [matrix-metalloproteinase -3 (p = 0.0001), Tumour necrosis factor-α (p = 0.0001), Interleukin (IL)-6 (p = 0.001), IL-1b (p = 0.0001), IL-17 (p = 0.0005), IL-33 (p = 0.0003), Tie-2 (p = 0.0001), vascular endothelial growth factor (VEGF (p = 0.03)], and lower anti-inflammatory cytokines [IL-27 (p = 0.0003), IL-10(p = 0.0001)]. A strong positive correlation of GSS score was noted with IL-17(r = 0.7), IL-6 (r = 0.7), IL-1b (r = 0.7), and IL-33 (r = 0.6). Multiple linear regression model identified IL-17 and IL-6 as predictors of GSS score, and TNF-α and VEGF as predictors of PD score. IL-17 level > 249 picogram/millilitre (pg/ml) could predict the SS with high specificity (89.5%). Patients with SS in the remission state of RA showed altered expression of some of the pro/anti-inflammatory/angiogenic markers compared to those not having SS. IL-17, IL-6, VEGF, and TNF-α could be the predictors of USG synovial scores. Show less

The prevalence of obesity and dyslipidaemia was observed to be increased among the tribal populations, due to globalization. In the present study, data on demographic, somatometric and blood samples were collected from 613 participants of both sex, age 18-60 years, further lipid profiling and genotyping was executed. Multifactor dimensionality reduction (MDR) software was used for gene-gene interactions analysis. Significantly differences were observed with respect to the general characteristic and selected gene polymorphisms in both the tribes. Among the Liangmai tribe, The observed differences can possibly attribute to both their respective ancestries resulting in different gene pools and the physical environment. The results of the study highlight the importance of gene-gene and gene-environment interactions in adverse phenotype groups.KEY MESSAGEAmong the tribal population, the prevalence of obesity and dyslipidaemia has been increased.Differential distribution and associations of selected markers hint towards differential genetic architecture in these populations. Show less

Overconsumption of sucrose and other sugars has been associated with nonalcoholic fatty liver disease (NAFLD). Reports suggest hepatic de novo lipogenesis (DNL) as an important contributor to and regulator of carbohydrate-induced hepatic lipid accumulation in NAFLD. The mechanisms responsible for the increase in hepatic DNL due to overconsumption of carbohydrate diet are less than clear; however, literatures suggest high carbohydrate diet to activate the lipogenic transcription factor carbohydrate response element-binding protein (ChREBP), which further transcribes genes involved in DNL. Here, we provide an evidence of an unknown link between nuclear factor kappa-light chain enhancer of activated B cells (NF-κB) activation and increased DNL. Our data indicates high carbohydrate diet to enforce nuclear shuttling of hepatic NF-κB p65 and repress transcript levels of sorcin, a cytosolic interacting partner of ChREBP. Reduced sorcin levels, further prompted ChREBP nuclear translocation, leading to enhanced DNL and intrahepatic lipid accumulation both in vivo and in vitro. We further report that pharmacological inhibition of NF-κB abrogated high carbohydrate diet-mediated sorcin repression and thereby prevented ChREBP nuclear translocation and this, in turn, attenuated hepatic lipid accumulation both in in vitro and in vivo. Additionally, sorcin knockdown blunted the lipid-lowering ability of the NF-κB inhibitor in vitro. Together, these data suggest a heretofore unknown role for NF-κB in regulating ChREBP nuclear localization and activation, in response to high carbohydrate diet, for further explorations in lines of NAFLD therapeutics. Show less

ChREBP is the master regulator of carbohydrate dependent glycolytic and lipogenic flux within metabolic tissues. It plays a vital role in hyper-calorific milieu by activating glycolysis, lipogenesis along with pentose phosphate shunt and glycogen synthesis, fostering immediate reduction in the systemic glycemic levels. Liver being the primary organ to sense disproportionate dietary intake and linked physiological stress, stimulates ChREBP to perform the aforementioned processes. Activated ChREBP also inhibits lipolysis and encourages proper disposal of excessive triglycerides into adipocytes from the liver ablating hepatic intracellular lipid trafficking. Chronic overeating or onset of positive energy balance, hyper-activates ChREBP and signals development, intensification of hepato-metabolic disorders, and allied discrepancies in the whole-body metabolic functioning. ChREBP thus gets negatively connotated as the primary regulator of hepatic disorders, owing to its inherent features as the primary glycemic sensor and the only transcription factor that can transduce glucose-dependent glycolytic and lipogenic signals. Through this review, we - try to recapitulate and emphasize on the sanative events coordinated by ChREBP in several pathophysiological states. In totality, we aim to uncouple the disease-causing aspects of ChREBP from its positive attributes evoked during a metabolic crisis, in hepato-metabolic diseases. Show less

Mutations in at least 13 different genes (called CLNs) underlie various forms of neuronal ceroid lipofuscinoses (NCLs), a group of the most common neurodegenerative lysosomal storage diseases. While inactivating mutations in the CLN1 gene, encoding palmitoyl-protein thioesterases-1 (PPT1), cause infantile NCL (INCL), those in the CLN3 gene, encoding a protein of unknown function, underlie juvenile NCL (JNCL). PPT1 depalmitoylates S-palmitoylated proteins (constituents of ceroid) required for their degradation by lysosomal hydrolases and PPT1-deficiency causes lysosomal accumulation of autofluorescent ceroid leading to INCL. Because intracellular accumulation of ceroid is a characteristic of all NCLs, a common pathogenic link for these diseases has been suggested. It has been reported that CLN3-mutations suppress the exit of cation-independent mannose 6-phosphate receptor (CI-M6PR) from the trans Golgi network (TGN). Because CI-M6PR transports soluble proteins such as PPT1 from the TGN to the lysosome, we hypothesized that CLN3-mutations may cause lysosomal PPT1-insufficiency contributing to JNCL pathogenesis. Here, we report that the lysosomes in Cln3-mutant mice, which mimic JNCL, and those in cultured cells from JNCL patients, contain significantly reduced levels of Ppt1-protein and Ppt1-enzyme activity and progressively accumulate autofluorescent ceroid. Furthermore, in JNCL fibroblasts the V0a1 subunit of v-ATPase, which regulates lysosomal acidification, is mislocalized to the plasma membrane instead of its normal location on lysosomal membrane. This defect dysregulates lysosomal acidification, as we previously reported in Cln1 Show less

Non-neuronal optogenetic approaches empower precise regulation of protein dynamics in live cells but often require target-specific protein engineering. To address this challenge, we developed a generalizable light-modulated protein stabilization system (GLIMPSe) to control the intracellular protein level independent of its functionality. We applied GLIMPSe to control two distinct classes of proteins: mitogen-activated protein kinase phosphatase 3 (MKP3), a negative regulator of the extracellular signal-regulated kinase (ERK) pathway, and a constitutively active form of MEK (CA MEK), a positive regulator of the same pathway. Kinetics study showed that light-induced protein stabilization could be achieved within 30 min of blue light stimulation. GLIMPSe enables target-independent optogenetic control of protein activities and therefore minimizes the systematic variation embedded within different photoactivatable proteins. Overall, GLIMPSe promises to achieve light-mediated post-translational stabilization of a wide array of target proteins in live cells. Show less

Dysregulated hepatic de novo lipogenesis contributes to the pathogenesis of nonalcoholic fatty liver disease in both humans and rodents. Clinical evidence suggests fatty liver to have a positive correlation with serum lead (Pb Show less

Inflammation marks all stages of atherogenesis. DNA hypermethylation in the whole genome or specific genes is associated with inflammation and cardiovascular diseases. Therefore, we aimed to study whether inhibiting DNA methylation by DNA methyltransferase inhibitor 5-aza-2'-deoxycytidine (5-aza-dC) ameliorates atherosclerosis in low-density lipoprotein receptor knockout (Ldlr(-/-)) mice. Ldlr(-/-) mice were fed an atherogenic diet and adminisered saline or 5-aza-dC (0.25 mg/kg) for up to 30 weeks. 5-aza-dC treatment markedly decreased atherosclerosis development in Ldlr(-/-) mice without changes in body weight, plasma lipid profile, macrophage cholesterol levels and plaque lipid content. Instead, this effect was associated with decreased macrophage inflammation. Macrophages with 5-aza-dC treatment had downregulated expression of genes involved in inflammation (TNF-α, IL-6, IL-1β, and inducible nitric oxidase) and chemotaxis (CD62/L-selectin, chemokine [C-C motif] ligand 2/MCP-1 [CCL2/MCP-1], CCL5, CCL9, and CCL2 receptor CCR2). This resulted in attenuated macrophage migration and adhesion to endothelial cells and reduced macrophage infiltration into atherosclerotic plaques. 5-aza-dC also suppressed macrophage endoplasmic reticulum stress, a key upstream signal that activates macrophage inflammation and apoptotic pathways. Finally, 5-aza-dC demethylated liver X receptor α (LXRα) and peroxisome proliferator-activated receptor γ1 (PPARγ1) promoters, which are both enriched with CpG sites. This led to overexpression of LXRα and PPARγ, which may be responsible for 5-aza-dC's anti-inflammatory and atheroprotective effect. Our findings provide strong evidence that DNA methylation may play a significant role in cardiovascular diseases and serve as a therapeutic target for prevention and treatment of atherosclerosis. Show less

Perfluorooctanoic acid (PFOA, 'C8') and perfluoroctane sulphonate (PFOS) are environmentally stable compounds with industrial and consumer uses and long half-lives in humans. Concern has been raised over chronic exposure effects to human health, especially in relation to cholesterol metabolism. Here, we explore the association between exposure to PFOA and PFOS and the in vivo expression of genes involved in cholesterol metabolism. We studied 290 individuals exposed to background levels of PFOS and elevated concentrations of PFOA through drinking water. Using adjusted linear regression models, we found inverse associations between serum PFOA levels and the whole blood expression level of genes involved in cholesterol transport (NR1H2, NPC1 and ABCG1; p=0.002, 0.026 and 0.014 respectively). A positive association was seen between PFOS and a transcript involved in cholesterol mobilisation (NCEH1; p=0.018), and a negative relationship with a transcript involved in cholesterol transport (NR1H3; p=0.044). When sexes were analysed separately, reductions in the levels of mRNAs involved in cholesterol transport were seen with PFOA in men (NPC1, ABCG1, and PPARA; p=0.025, 0.024 and 0.012 respectively) and in women (NR1H2 expression; p=0.019), whereas an increase in the levels of a cholesterol mobilisation transcript (NCEH1; p=0.036) was noted in women alone. PFOS was positively associated with expression of genes involved in both cholesterol mobilisation and transport in women (NCEH1 and PPARA; p=0.003 and 0.039 respectively), but no effects were evident in men. This is the first report of associations between the in vivo expression of genes involved in cholesterol metabolism and exposure to PFOA or PFOS, suggested that exposure to these compounds may promote a hypercholesterolaemic environment, with wider implications for human disease. Show less