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Cervical cancer (CC) remains a leading cause of cancer-related deaths worldwide and still requires effective interventions to improve patient outcomes. Angiopoietin-like 4 (ANGPTL4) is a multifaceted glycoprotein that plays crucial roles in lipid metabolism and tumor progression. ANGPTL4 exhibits both tumor-promoting and tumor-suppressing effects and has been proposed as a promising target for cancer therapy. This study investigated the role and potential of ANGPTL4 in enhancing therapeutic efficacy in CC using cell line models in vitro. Our analysis revealed a decreased expression of ANGPTL4 in CC samples from the GSE dataset and in the CC cell lines examined. Functional assays demonstrated that ANGPTL4 overexpression suppressed CC cell proliferation, migration, and invasion. Notably, overexpression of ANGPTL4 resulted in decreased cell viability and increased levels of apoptosis, cleaved caspase-3, and cleaved PARP under cisplatin treatment. Furthermore, these analyses were also conducted in ANGPTL4-knockdown cells, and results supporting the tumor-suppressive roles of ANGPTL4 were observed. Taken together, our study elucidates the critical role of ANGPTL4 in modulating progression and chemosensitivity of CC cells, suggesting ANGPTL4 as a potential target for CC treatment. Show less

Dyslipidemia is the leading cause of cardiovascular disease (CVD) in Type 2 diabetes mellitus patients. As a result, it is critical to target and manage the level of atherogenic lipids. Angiopoietin-like proteins 3 and 4 (ANGPTL 3 and ANGPTL 4) play an important role in the intravascular lipolysis of triglyceride-rich lipoproteins by blocking the enzyme lipoprotein lipase. This study aimed to determine the amounts of these angiopoietin-like proteins in T2DM and find their association with dyslipidemia in T2DM. Sixty-one T2DM patients of age group 25-65 years and 27 healthy age-matched control participants were enrolled in the study. Glycemic status (FBS, PPBS, HbA1C), serum lipid parameters (cholesterol, TG, LDL, VLDL, HDL, Tc/HDL ratio), free fatty acid, serum insulin, and ANGPTL3, 4 were measured. A correlation was found between the ANGPTLs and the above parameters in T2DM patients. Serum ANGPTL3 ( This study shows that ANGPTL 3,4 may be associated with dyslipidemia in T2DM. ANGPTL4 is more correlated with glycemic status. Show less

Angiopoietin-like protein 4 (ANGPTL4) plays a crucial role in processes such as angiogenesis, inflammation, and metabolism. Despite numerous studies suggesting its involvement in cancer, a definitive role remains unclear. We introduce the first comprehensive meta-analysis and pan-cancer bioinformatics study on ANGPTL4, aiming to unravel its implications across various cancer types. Moderate-to high-quality observational studies were retrieved from PubMed, Scopus, and Embase. A meta-analysis was conducted using the R package "meta." Survival analysis was performed using GEPIA2 and TIMER2.0. Immune infiltration, mutational burden, and drug resistance analyses was done via GSCAlite. Co-expression and gene set enrichment analyses (GSEA) were carried out using cBioportal and enrichr, respectively. Increased ANGPTL4 expression was linked to worse tumor grade (OR =  1.51, P = 0.023), stage (OR =  2.42, P < 0.001), lymph node metastasis (OR =  1.76, P = 0.012), vascular invasion (OR =  2.16, P = 0.01), and lymphatic invasion (OR =  2.20, P < 0.001). Furthermore, ANGPTL4 expression was linked to worse OS (HR = 1.40, 95% CI: 1.29,1.50, P = 0.0001). Single gene level analysis revealed that ANGPTL4 upregulated epithelial-to-mesenchymal transition (EMT) in 23 different cancers. Immune infiltration varied between cancer types, but increased infiltration of cancer-associated fibroblasts was observed in most cancers. Mutation analysis revealed increased alterations in TP53 and CDKN2A in cohorts with ANGPTL4 alterations. GSEA of co-expressed genes revealed involvement in hypoxia, EMT, VEGF-A complex, TGF-B pathways, and extracellular matrix organization. ANGPTL4 plays a significant role in tumor progression via its positive regulation of EMT and angiogenesis, while possibly harboring a TGF-B dependent role in systemic metastasis. Therefore, ANGPTL4 is a suitable target for future drug development. Show less

Diabetes mellitus-related erectile dysfunction (DMED) is characterized by complicated pathogenesis and unsatisfactory therapeutic remedies. Glycolysis plays an essential role in diabetic complications and whether it is involved in the process of DMED has not been expounded. The aim of this study was to investigate the genetic profiling of glycolysis and explore potential mechanisms for DMED. Glycolysis-related genes (GRGs) and gene expression matrix of DMED were obtained from the molecular signatures database and gene expression omnibus dataset. Differentially expressed analysis and support vector machine-recursive feature elimination (SVM-RFE) method were both used to obtain hub GRGs. Interactive network and functional enrichment analyses were performed to clarify the associated biological roles of these genes. The expression profile of hub GRGs was validated in cavernous endothelial cells, animals, and clinical patients. The subpopulation distribution of hub GRGs was further identified. In addition, a miRNA-GRGs network was constructed and expression patterns as well as molecular functions of relevant miRNAs were explored and validated. In addition, the relationship between hypoxia and DMED was also uncovered. Based on the combined analysis, 48 differentially expressed GRGs were obtained. Gene Ontology and Kyoto Encyclopedia of Genes and Genomes enrichment analyses revealed that these genes were significantly enriched in carbon metabolism and oxidoreductase activities. Then hub GRGs including down-regulated as well as up-regulated genes in DMED were identified ultimately. Among them, We clarified the expression signature of GRGs in DMED based on multi-omics analysis for the first time. It will be significantly important to reveal pathological mechanisms and promising treatments in DMED. Show less

In recent years, accumulating evidence has highlighted the critical role of miR-627-5p in the occurrence and progression of various cancers. However, its specific role and mechanism in cervical cancer (CC) remain unclear. This study aimed to elucidate the mechanism by which miR-627-5p inhibits the malignant progression of CC and assess its potential clinical implications. In C33A cells, the mRNA expression levels of ANGPTL4 and miR-627-5p were analyzed using qRT-PCR. The miR-627-5p mimics and their control (miR-NC) were transfected into C33A cells to determine whether miR-627-5p directly regulates ANGPTL4 expression. A comprehensive suite of assays, including CCK-8, migration, transwell, flow cytometry, and Western blotting, was conducted to evaluate how miR-627-5p modulates the malignant biological behavior of CC cells. Rescue experiments were performed by overexpressing ANGPTL4. In C33A cells, miR-627-5p expression was reduced, whereas ANGPTL4 expression was elevated. Further analysis confirmed that miR-627-5p negatively regulates ANGPTL4 by directly targeting its 3'-UTR. Functional assays demonstrated that miR-627-5p inhibits proliferation, invasion, migration, and epithelial-mesenchymal transition (EMT) while promoting apoptosis and S-phase arrest in C33A cells, effects that were reversed by ANGPTL4 overexpression. These findings highlight the potential of miR-627-5p as both a biomarker and a therapeutic target for CC. By inhibiting EMT and regulating ANGPTL4 expression, miR-627-5p may provide a novel avenue for improving therapeutic strategies, particularly in advanced or metastatic CC. Moreover, miRNA-based therapies, supported by advanced delivery systems such as nanoparticle carriers, could enhance the stability and precision of miR-627-5p applications. This study lays the groundwork for future research integrating miR-627-5p into precision medicine approaches for CC treatment. Show less

NDRG1, a cell differentiation-associated factor, has recently emerged as a regulator ferroptosis. Nevertheless, its role in modulating ferroptosis within hepatocellular carcinoma (HCC) remains uncharacterized. The differential expression of NDRG1 and its prognostic value were analyzed in HCC using data from TCGA and GEO. Ferroptosis in HepG2 and Huh7 cells was assessed using flow cytometry, transmission electron microscopy, and propidium iodide staining following NDRG1 knockdown using shRNA. RNA-seq was performed to characterize the mRNA expression profiles in HepG2 cells, identifying differentially expressed mRNAs (DE-mRNAs) and NDRG1-related hub genes. NDRG1 was overexpressed in multiple malignant tumors, including HCC, and was associated with a significantly poor prognosis in HCC patients. A nomogram model integrating NDRG1 expression and clinical parameters demonstrated robust prognostic accuracy. NDRG1 knockdown potentiated erastin-induced alterations in Fe NDRG1 exhibits strong predictive value for HCC, and accelerates tumor progression by suppressing ferroptosis. Show less

Lipoprotein lipase (LPL) carries out the lipolytic processing of triglyceride-rich lipoproteins (TRL) along the luminal surface of capillaries. LPL activity is regulated by the angiopoietin-like proteins (ANGPTL3, ANGPTL4, ANGPTL8), which control the delivery of TRL-derived lipid nutrients to tissues in a temporal and spatial fashion. This regulation of LPL mediates the partitioning of lipid delivery to adipose tissue and striated muscle according to nutritional status. A complex between ANGPTL3 and ANGPTL8 (ANGPTL3/8) inhibits LPL activity in oxidative tissues, but its mode of action has remained unknown. Here, we used biophysical techniques to define how ANGPTL3/8 and ANGPTL3 interact with LPL and how they drive LPL inactivation. We demonstrate, by mass photometry, that ANGPTL3/8 is a heterotrimer with a 2:1 ANGPTL3:ANGPTL8 stoichiometry and that ANGPTL3 is a homotrimer. Hydrogen-deuterium exchange mass spectrometry (HDX-MS) studies revealed that ANGPTL3/8 and ANGPTL3 use the proximal portion of their N-terminal α-helices to interact with sequences surrounding the catalytic pocket in LPL. That binding event triggers unfolding of LPL's Show less

The interplay between intracellular and intravascular lipolysis is crucial for maintaining circulating lipid levels and systemic energy homeostasis. Adipose triglyceride lipase (ATGL) and lipoprotein lipase (LPL), the primary triglyceride (TG) lipases responsible for these two spatially separate processes, are highly expressed in adipose tissue. Yet the mechanisms underlying their coordinated regulation remain undetermined. Here, we demonstrate that genetic ablation of G0S2, a specific inhibitory protein of ATGL, completely abolished diet-induced hypertriglyceridemia and significantly attenuated atherogenesis in mice. These effects were attributable to enhanced whole-body TG clearance, not altered hepatic TG secretion. Specifically, G0S2 deletion increased circulating LPL concentration and activity, predominantly through LPL production from white adipose tissue (WAT). Strikingly, transplantation of G0S2-deficient WAT normalized plasma TG levels in mice with hypertriglyceridemia. In conjunction with improved insulin sensitivity and decreased ANGPTL4 expression, the absence of G0S2 enhanced the stability of LPL protein in adipocytes, a phenomenon that could be reversed upon ATGL inhibition. Collectively, these findings highlight the pivotal role of adipocyte G0S2 in regulating both intracellular and intravascular lipolysis, and the possibility of targeting G0S2 as a viable pharmacological approach to reducing levels of circulating TGs. Show less

Cervical carcinoma (CC) remains a significant global health issue despite advancements in screening and treatment. To improve prognostic accuracy and therapeutic strategies, we developed a multi-machine learning prognostic model based on metabolic-associated genes. This study integrated genomic, transcriptomic, and spatial data from multiple databases to identify key metabolic genes with a causal relationship to CC. We identified 112 key metabolic genes, which were used to construct and validate a prognostic model through various machine learning algorithms. GO and KEGG enrichment analysis revealed the MAPK cascade plays a crucial role in metabolic processes. To pinpoint key metabolic genes, we constructed WGCNA and extracted 337 key genes. Supervised principal component analysis and random survival forests were incorporated into the final model, which showed strong predictive ability in classifying patients. Furthermore, the model demonstrated notable variations in immune cell infiltration among risk categories, which shown regulatory T cells may be involved in immune suppression, and natural killer cells might have a limited effect in tumor clearance. Spatial transcriptomics and single-cell analyses further validated the model, uncovering tumor heterogeneity and distinct intercellular communication patterns associated with different risk levels. The functional experiment results indicated that down expression of PLOD3 could suppress the proliferation of CC cell. In this study, offer a precision medicine methods for predicting patient outcomes as well as fresh insights into the metabolic foundations, which may contribute to the prognosis and immunotherapy of CC. Additionally, we discovered PLOD3 to be a novel oncogene in CC. These findings imply that this model may be applied to assess prognostic risk and identify potential therapeutic targets for CC patients. Show less

Lung adenocarcinoma (LUAD) has become the most common pathological pattern of lung cancer in recent decades. Prediction of biological behavior of LUAD is crucial for disease management and treatment options. The objective of this study was to identify significant genes related with prognosis of LUAD, and to investigate the role and biological mechanism of caveolin-1 (CAV1) in LUAD. Bioinformatical analysis was used to identify significant genes related to the prognosis of LUAD based on GEO datasets. Then the mechanisms underlying these critical genes were explored. Enrichment analysis was implemented based on CAV1 related differentially expressed genes subsequently. The expressions of CAV1 and EGFR in LUAD tissues and adjacent tissues were detected by Western blotting, immunohistochemistry and microarray technology. Kaplan-Meier survival analysis and cox regression analysis were performed to verify the correlation between CAV1 expression level and the prognosis of LUAD. The expression of CAV1 in PC-9, H1299 and H1975 cells was inhibited by siRNA transfection. CAV1 overexpression plasmid was constructed and transfected into A549 cells. Cell proliferation was detected by cell Titer-Glo, CCK-8 and colony formation assay. Scratch test was used to compare cell migration ability. Transwell assay was used to compare cell invasion ability. Cell apoptosis and cell cycle were detected by flow cytometry. The effect of CAV1 on EGFR degradation was verified by cycloheximide inhibition assay. Western blotting was used to detect the phosphorylation of AKT and STAT3, the expression of epithelial-mesenchymal transition (EMT) -related molecular markers and apoptosis-related Bax/Caspase-3/Bcl-2 pathway. The GFP plasmid loaded with shRNA was transfected into PC-9 cell line by lentivirus infection. Three groups of stable PC-9 cell lines, including shNC, shCAV1-1 and shCAV1-2 were obtained. The phenotypic experiments of proliferation, invasion, migration and apoptosis were completed. Western blotting was used to detect the phosphorylation of AKT and STAT3, as well as apoptosis-related Bax/Caspase-3/Bcl-2 pathway markers. In vivo experiments, including subcutaneous tumor formation experiment and immunohistochemical detection of CAV1, EGFR and Ki-67 were performed. Comprehensive analysis of GSE130779, GSE32863 and GSE85841 datasets identified 3 up-regulated DEGs and 86 down-regulated DEGs, which were significantly enriched in malaria pathway and proteoglycans in cancer pathway. CAV1 and CAV2 may inhibit tumor growth by degrading EGFR. Thirteen core genes including ADH1B, ALDH1A1, CAV1, CAV2, CLDN18, CXCL2 (GRO2), EDNRB, GNG11, LPL, PDK4, SCGB1A1, SDPR and SFTPC were down-regulated in LUAD tissues, which were associated with better prognosis of lung cancer significantly. Enrichment analysis of CAV1-related DEGs identified the endocytosis pathway, suggesting that CAV1 was involved in the development of LUAD by degrading EGFR through endocytosis. CAV1 was highly expressed in paracancerous tissues, and there was a negative correlation between the tissue locations of CAV1 and EGFR. Kaplan-Meier survival analysis of the cohort study showed that higher Cav-1 levels were associated with longer overall survival, and the difference was significant. Both in vitro and in vivo, CAV1 knockdown increased EGFR level, while CAV1 overexpression decreased EGFR level. This effect was mediated by Cav-1 promoting EGFR degradation. Cav-1 further inhibited the phosphorylation of downstream AKT/STAT3 pathway of EGFR. Caveolin-1 positively regulated the Bax/Caspase-3/Bcl-2 pathway, thereby participating in mediating apoptosis. Cav-1 can suppress the proliferation, migration and invasion of LUAD, while promote cell apoptosis. Our findings demonstrate that CAV1 exerts its anti-tumor effects, at least in part, by inhibiting EGFR degradation and modulating the AKT/STAT3 pathway, as well as enhancing the Bax/Caspase-3/Bcl-2 signaling pathway in LUAD cells. These results suggest that targeting CAV1 may represent a promising therapeutic strategy for the treatment of LUAD patients. Show less

Therapies targeting the LPL (lipoprotein lipase) pathway are under development for cardiometabolic disease. Insights into their efficacy-both alone and in combination with existing lipid-lowering therapies-modes of action, and safety of these agents are essential to inform clinical development. Using Mendelian randomization, we aimed to (1) evaluate efficacy, (2) explore shared mechanisms, (3) assess additive effects with approved lipid-lowering drugs, and (4) identify secondary indications and potential adverse effects. We selected triglyceride-lowering genetic variants located in the genes encoding ANGPTL3 (angiopoietin-like 3), ANGPTL4 (angiopoietin-like 4), APOC3 (apolipoprotein C3), and LPL and conducted drug target Mendelian randomization on primary outcomes including coronary artery disease and type 2 diabetes, and secondary outcomes, including apolipoprotein B, waist-to-hip ratio, body mass index, and 233 metabolic biomarkers. We conducted interaction Mendelian randomization analyses in 488 139 UK Biobank participants to test the effect of combination therapy targeting the LPL and LDLR (low-density lipoprotein receptor) pathways. Finally, we investigated potential secondary indications and adverse effects by leveraging genetic association data on 1204 disease end points. Genetically predicted triglyceride lowering through the perturbation of LPL pathway activation targets ANGPTL4, APOC3, and LPL was associated with a lower risk of coronary artery disease and type 2 diabetes and lower apolipoprotein B. Genetically predicted triglyceride lowering through ANGPTL4 was associated with a lower waist-to-hip ratio, suggestive of a favorable body fat distribution. There was no evidence of a multiplicative interaction between genetically proxied perturbation of ANGPTL4, APOC3, and LPL and that of HMGCR (HMG-CoA reductase) and PCSK9 (proprotein convertase subtilisin/kexin type 9) on coronary artery disease and type 2 diabetes, consistent with additive effects. Finally, associations of genetically predicted LPL pathway targeting were supportive of the broad safety of these targets. Our findings provide genetic evidence supporting the efficacy and safety of LPL pathway activation therapies for the prevention of coronary artery disease and type 2 diabetes, alone or in combination with statins or PCSK9 inhibitors. Show less

This study investigates the differences in ligand-receptor interactions between the communication network of vascular endothelial cells (ECs) and photoreceptor cells (PRCs)in diabetic retinopathy (DR) the mechanism was verified by animal experiments. The GSE209872 data set, including retinal specimens from five Sprague-Dawley rats induced by streptozotocin, was obtained from Gene Expression Omnibus. CM and EC data were extracted individually for reclustering, functional enrichment and trajectory analyses. Cell communication analysis was conducted to investigate the altered signals and significant ligand-receptor interactions. Moreover, novel ligand-receptor interactions were validated using immunofluorescence staining using 2, 4 and 8 weeks DR model; DR was treated with AAV-shANGPTL4, and retinal function was detected by Haematoxylin and eosin staining (HE), TUNEL and ELISA. The expression of ligand-receptor in DR Retina was detected by qPCR and immunohistochemistry. Nine cell types were determined in DR. Cellular communication results revealed four signalling pathways, including PTN, MK, ANGPTL and CXCL, that were significantly changed in DR. Furthermore, 3 ligand-receptor pairs (Ptn-Ncl, Mkd-Ncl and Angptl4-Sdc4) were obviously upregulated between ECs and PRCs, the expression of which was verified via immunofluorescence in the DR model. After treatment with AAV-shANGPTL4, the retinal thickness and average density of RGCs were decreased (p < 0.05). TUNEL staining showed that knocking down ANGPTL4 reduced the apoptosis of DR (p < 0.05), and VEGF and IGF-1 expression were downregulated (p < 0.01). The expression of ligand-receptors also decreased in the DR Model (p < 0.01). The vascular ECs and PRCs demonstrate significant heterogeneities in DR. ANGPTL4 was a decreased ligand-receptor expression and improved retinal function as a potential therapeutic target against DR. Show less

Chronic unpredictable mild stress (CUMS) affects chicken immune system and welfare, causing huge losses of growth performance and welfare. Resveratrol (RSV), an antioxidant and anti-inflammatory natural plant polyphenol, is widely used for the prevention of stress related disease. The aim of this study is to explore the therapeutic effect of RSV on spleen damage in CUMS. We successfully constructed a CUMS model. A total of 288 healthy one-day-old chicks were used in this study and were divided in 3 groups, control, CUMS and CUMS+RSV group. During 42 days of age, spleen tissue samples were collected and analyzed. Transmission electron microscope (TEM), Hematoxylin and eosin (H&E) staining, immunofluorescence, qRT- PCR, Western blots, immunohistochemical staining and RNA- sequencing (RNA-seq) technology was used to determine any changes and analyzed the mRNA and enrichment pathways. Histopathology and ultrastructure showed there was a severe damage of tissues. The results of RNA-seq showed that a total of 206, 267 and 211 DEGs were identified (log2 Fold Change| >1, P < 0.05) in control -vs- CUMS group, CUMS -vs- CUMS+RSV group and control -vs- CUMS+RSV group, respectively. Through Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis of the SDEGs, two immune/stress- related pathways including PPAR signaling pathway and neuroactive ligand receptor interaction were selected. The genes related to PPAR signaling pathway identified were PLIN1, MMP1, ANGPTL4 and FABP4 and Neuroactive ligand-receptor interaction genes were GRPR, NTSR1, KNG1 and AGT. The PLIN1, MMP1, ANGPTL4, FABP4, GRPR, KNG1 and AGT were up regulated and NTSR1 was down regulated in CUMS group. When compared to CUMS -vs- CUMS+RSV group, PLIN1, FABP4, KNG1 and AGT were down regulated genes and NTSR1 was up regulated gene. Taken together, KEGG pathway analyses of DEGs, verified by qRT-PCR and Western blots, the current study suggested that these data reveal the promising role of RSV in the prevention and therapy of a wide variety of tissue damage and PPAR signaling pathway, neuroactive ligand-receptor interaction in chronic unpredictable mild stress. Show less

Abdominal aortic aneurysm (AAA) is a severe aortic disease for which no pharmacological interventions have yet been developed. This investigation focused on identifying protein-based therapeutic targets and assessing how proteins mediate the interplay between modifiable risk factors and AAA development. Causal inferences between plasma proteins and AAA were drawn using 2-sample Mendelian randomization, followed by comprehensive sensitivity testing, colocalization, and replication efforts. Further analyses included database interrogation, single-cell RNA data analysis, enrichment analysis, protein-protein interaction networks, and immunohistochemistry to map the tissue-specific expression of these proteins, their expression within AAA tissues, and their biological roles. Mediation Mendelian randomization was employed to evaluate the mediating effects of AAA-related proteins on the associations between AAA and 3 risk factors: hypertension, smoking, and obesity. A total of 43 proteins were identified as having causal links to AAA. Colocalization analysis pinpointed 13 proteins with strong evidence of colocalization with AAA. Of these, the causal involvement of 10 proteins was substantiated by external validation data. Consistent evidence for PCSK9 (proprotein convertase subtilisin/kexin type 9), IL6R (interleukin-6R), ECM1 (extracellular matrix protein 1), and ANGPTL4 (angiopoietin-related protein 4) was further validated through tissue immunohistochemistry and blood data. Moreover, Mendelian randomization analysis identified 10 proteins as mediators of the influence of hypertension, smoking, and obesity on AAA development. This analysis identifies 4 proteins (PCSK9, IL6R, ECM1, and ANGPTL4) as high-priority therapeutic targets for AAA and emphasizes the intermediary role of plasma proteins in linking hypertension, smoking, obesity, and AAA. Further investigations are needed to clarify the specific roles of these proteins in AAA pathology. Show less

Lipoprotein lipase (LPL) participates in the development of obesity by regulating triglyceride hydrolysis and fat storage or oxidation. In this study, the anti-obesity effects of lotus seed skin catechins and its mechanisms associated with LPL modulation were demonstrated. In vivo, catechins reduced body weight in high-fat diet-induced obese mice, improved lipid metabolism and antioxidant indices, and modulated LPL activity in adipose and skeletal muscle tissues. The expression of peroxisome proliferator-activated receptor γ (PPARγ) and (angiopoietin-like 4 proteins) ANGPTL4 mRNA and protein was significantly upregulated in epididymal fat depot but downregulated in skeletal muscle tissue. In vitro cell experiments and chromatin immunoprecipitation (ChIP) assays further revealed that the binding sites of PPARγ protein in the ANGPTL4 promoter region were enriched in adipocytes or reduced in skeletal muscle cells in response to catechin treatment. Therefore, lotus seed skin catechins exhibit anti-obesity activity in vivo and in vitro by specifically regulating the activity and expression of LPL in target tissues. Show less

Angiopoietin-like protein 4 (ANGPTL4) is critical for vascular integrity and reducing inflammation in ischemic and hypoxic brain injuries. However, limited studies have evaluated ANGPTL4's role in acute ischemic stroke (AIS) assessment, and its expression patterns across AIS phases remain unclear. The severity of AIS at admission was assessed using the National Institutes of Health Stroke Scale (NIHSS). The association between serum ANGPTL4 level and the occurrence of AIS was examined using logistic regression analysis. The diagnostic accuracy of serum ANGPTL4 level for AIS severity was assessed using receiver operating characteristic curves. This study included 389 AIS patients and 133 healthy individuals. There was a notable increase in the occurrence of AIS associated with rising serum ANGPTL4 levels (odds ratio [OR] 1.03, 95% confidence interval [CI]: 1.02-1.06; p < 0.001). A higher serum level of ANGPTL4 was also found to be associated with severe AIS, as indicated by an AUC of 0.848. Additionally, we observed significant dynamic changes in ANGPTL4 levels, with a marked decrease at 1 week or 2 weeks after admission compared with the acute phase (the day after admission; both p < 0.001). Our findings suggest a robust association between elevated serum ANGPTL4 levels and the presence and severity of AIS. Importantly, this study is distinguished by its novel focus on the temporal dynamics of ANGPTL4 levels, which underscores its potential as a biomarker for AIS monitoring and provides new insights into AIS pathophysiology. Show less

Triglyceride-rich lipoproteins carry lipids in the bloodstream, where the fatty acid moieties are liberated by lipoprotein lipase (LPL) and taken up by peripheral tissues such as brown adipose tissue (BAT) and white adipose tissue (WAT), whereas the remaining cholesterol-rich remnant particles are cleared mainly by the liver. Elevated triglyceride (TG) levels and prolonged circulation of cholesterol-rich remnants are risk factors for cardiovascular diseases. Acute cold exposure decreases postprandial TG levels and is a potential therapeutic approach to treat hypertriglyceridemia. However, how acute cold exposure regulates TG metabolism remains incompletely understood. In the current study, we found that acute cold exposure simultaneously increases postprandial very-low-density lipoprotein production and TG clearance, with the latter playing a dominant role and resulting in decreased TG levels. Acute cold exposure increases LPL activity and TG uptake in BAT, while suppressing LPL activity and TG uptake in WAT. Mechanistically, acute cold exposure increases BAT LPL activity through transcriptional upregulation of Lpl and posttranscriptional regulation via inhibiting the hepatic insulin-ANGPTL8-ANGPTL3 axis, while suppressing WAT LPL activity through upregulation of ANGPTL4. Angptl8 knockout mice have dramatically decreased levels of circulating TG. In the absence of ANGPTL8, acute cold exposure increases rather than decreases circulating TG levels. Thus, our study reveals multilayered regulation of acute cold response and postprandial TG metabolism, highlighting the key functions of ANGPTL3, 4, and 8 in response to acute cold exposure. Show less

Graphical Abstract Lipoprotein lipase (LPL) mediates peripheral tissue triglyceride (TG) uptake. Hepatic ANGPTL3 (A3) and ANGPTL8 (A8) form a complex and inhibit LPL activity in the white adipose tissue (WAT) via systematic circulation. ANGPTL4 (A4) is expressed in WAT and inhibits LPL activity locally. Feeding increases hepatic A8 expression and increases its inhibition for WAT LPL activity together with A3, while feeding suppresses WAT A4 expression and releases its inhibition on LPL. At room temperature, the feeding-suppressed A4 overrides the feeding-increased A3/A8, resulting in increased LPL activity in WAT by food intake. Browning improves hepatic insulin sensitivity and increases postprandial A8 expression. The feeding-increased A3/A8 overrides the feeding-suppressed A4, resulting in suppressed LPL activity in WAT by food intake. This reprogrammed LPL regulation plays an important role in reprogramming TG metabolism during adipose tissue browning. Show less

Cell immortalization corresponds to a biologically relevant clinical feature that allows cells to acquire a high proliferative potential during carcinogenesis. In multiple cancer types, Protein Kinase D3 (PKD3) has often been reported as a dysregulated oncogenic kinase that promotes cell proliferation. Using mouse embryonic fibroblasts (MEFs), in a spontaneous immortalization model, PKD3 has been demonstrated as a critical regulator of cell proliferation after immortalization. However, the mechanisms by which PKD3 regulates proliferation in immortalized MEFs require further elucidation. Using a previously validated Show less

Hypertrophic cardiomyopathy (HCM) is an inherited cardiomyopathy often caused by pathogenic variants in MYBPC3 and MYH7, encoding myosin-binding protein C3 and myosin heavy chain 7, respectively. These variants can cause increased actin-myosin crossbridge cycling, resulting in ventricular hypercontractility, but mice lacking Mybpc3 exhibited reduced left ventricular ejection time (LVET) as a sign of systolic dysfunction. In this study, we tested whether LVET is specifically altered in patients carrying MYBPC3 variants by retrospective echocardiographic analysis in two genotype-defined HCM cohorts. LVET was measured by echocardiography and adjusted for heart rate [LVET index (LVETI)] in 166 patients. Variant carriers were stratified for the presence (LVH+) or absence of left ventricular hypertrophy with septal thickness of ≥13 mm (LVH-). Multivariate analysis of variance (MANOVA) was used to identify differences in LVETI between variant carriers and controls with LVETI as the dependent variable, adjusted for sex, age, left ventricular ejection fraction (LVEF), interventricular septal diameter in diastole (IVSd), diastolic dysfunction, left ventricular outflow tract (LVOT) gradient at rest and medication history as confounders. In a total of 166 patients carrying MYBPC3 or MYH7 pathogenic variants (38 ± 3 years, 45% female), we compared the discovery cohort (40 MYBPC3 and 31 MYH7) and the validation cohort ('Valsartan in Attenuating Disease Evolution in Early Sarcomeric HCM'; 54 MYBPC3 and 41 MYH7) with 44 healthy controls. LVETI was lower in MYBPC3 and higher in MYH7 LVH+ patients than in controls in the discovery, validation and pooled cohorts (pooled: MYBPC3 381 ± 19 ms vs. MYH7 437 ± 38 ms, P < 0.001; MYBPC3 vs. controls 411 ± 15 ms, P < 0.001; and MYH7 vs. controls, P < 0.001). Similar findings were seen in LVH- (pooled: MYBPC3 380 ± 16 ms vs. MYH7 437 ± 39 ms, P < 0.001; MYBPC3 vs. controls, P < 0.001). While MYH7 variants were all missense as expected, 87% of the MYBPC3 variants were truncating (including nonsense variants, out-of-frame deletion and splice site variants) and 13% were non-truncating (missense and in-frame deletion). LVETI did not differ between the groups and was significantly lower than the control in both. The data suggest that variants in MYBPC3 and MYH7 result in distinct biophysical consequences, which can be detected by measuring LVETI in patients. The findings may have implications for potential genotype-specific differences in response to therapies targeting sarcomere function. Show less

Self-labelling proteins like SNAP- and HaloTag have advanced imaging in life sciences by enabling live-cell labeling with fluorophore-conjugated substrates. However, the typical one-fluorophore-per-protein system limits signal intensity. To address this, we developed a strategy using the ALFA-tag system, a 13-amino acid peptide recognized by a bio-orthogonal and fluorescently labelled nanobody, for signal amplification. We synthesized a pentavalent ALFA Show less

Sudden cardiac arrest (SCA) is a leading cause of mortality in young individuals, often linked to structural heart disease or primary electrical disorders. However, in some cases, the etiology remains unidentified despite extensive diagnostic efforts. This case report describes a 23-year-old male with a family history of hypertrophic cardiomyopathy (HCM) who experienced a sudden cardiac arrest without prior symptoms and had negative genetic testing. The patient, previously healthy, suffered a cardiac arrest while traveling to college. Advanced cardiopulmonary resuscitation (CPR) and multiple defibrillator shocks were necessary to achieve return of spontaneous circulation (ROSC). Transthoracic echocardiography performed immediately post-ROSC showed global hypokinesia with reduced ejection fraction (35%). Coronary angiography at 24 hours post-ROSC was normal. Transient ST-segment elevations resolved within hours and were attributed to post-resuscitation myocardial stunning, with no evidence of ischemia or myocarditis on cardiac magnetic resonance imaging (MRI), which revealed mild interventricular septal hypertrophy without left ventricular outflow tract obstruction. Genetic testing, including a targeted cardiomyopathy panel and whole exome sequencing, did not identify any pathogenic variants, including in MYH7 or MYBPC3. The patient was treated with amiodarone and received an implantable cardioverter-defibrillator (ICD) for secondary prevention. He recovered fully, with no neurologic deficits. This case underscores the challenges of diagnosing and managing SCA in young adults, emphasizing the critical role of genetic and structural assessments. Early intervention, multidisciplinary care, and comprehensive follow-up are essential to reduce recurrence and improve patient outcomes. Show less

Endothelial-to-mesenchymal transition (EndMT) is a biological process that converts endothelial cells to mesenchymal cells with increased proliferative and migrative abilities. EndMT has been implicated in the development of pulmonary vascular remodeling in pulmonary arterial hypertension (PAH), a fatal and progressive lung vascular disease. Transforming growth factor β Show less

Oxidative stress is crucial in the development of cutaneous melanoma, but its role in melanoma is controversial. We aimed to identify melanoma-associated targets and understand the underlying mechanism. Differential expressed genes (DEGs) were discovered between control and melanoma samples, and a protein-protein interaction (PPI) network was constructed to find key genes. The prediction accuracy of LMOD1 was assessed by receiver operating characteristic (ROC) curves, and pan-cancer analysis was also performed for LMOD1 expression and immune characteristics. The downstream pathway of LMOD1 was found via KEGG analysis. The effects of LMOD1 on oxidative stress, apoptosis, CD4 + T cells and the downstream pathway were evaluated in melanoma cells and mice. We identified ACTG2, CNN1, LMOD1, MYH11, MYL9, MYLK, TAGLN, TPM1 and TPM2 as melanoma-related DEGs, which could separate control and melanoma samples. The area under curve (AUC) of LMOD1 was > 0.89, indicating high prediction accuracy. LMOD1 expression was decreased in melanoma, and LMOD1 notably correlated with B cells, CD4 T cells, neutrophils, macrophages and dendritic cells (DCs). Overexpression of LMOD1 promoted apoptosis, enhanced migration and invasion, and activated oxidative stress in melanoma cells. LMOD1 promoted apoptosis via activating oxidative stress. The RIG-I-like receptor signaling (RLR) was a downstream pathway of LMOD1. Overexpression of LMOD1 activated oxidative stress, increased apoptosis and CD4 + T cells, and elevated RIG-I and MDA5, while Cyclo (Phe-Pro) (cFP) reversed the results. LMOD1 triggers oxidative stress-mediated apoptosis in melanoma via activating the RLR pathway, which provides promising targets and regulatory pathway for melanoma. Show less

Behavioral Tagging (BT) is a well-established phenomenon under in vivo conditions to understand molecular framework of long-term memory (LTM) consolidation. BT has been extensively explored using different learning tasks and novelties at the behavioral level, while at the molecular level, handful of plasticity related proteins (PRPs) such as PKMζ, CREB, BDNF have been explored in various manners thereof. Hence, the quest for novel PRPs in BT becomes a necessity, since repeated studies of known PRPs results in scientific stagnation and cessation of further exploration. Emerging literature suggests potential role of BACE1 and endogenous Aβ in maintenance of synaptic plasticity and long-term potentiation. The present study aims to characterize the effects of BACE1 inhibition using minocycline on novel object recognition (NOR) LTM through environment enrichment (EE) mediated BT. BACE1 is responsible for endogenous Aβ generation, hence its inhibition also subdues the Aβ synthesis. Our results significantly demonstrate the active involvement of BACE1 and endogenous Aβ in facilitating NOR-LTM consolidation through EE mediated BT for the first time under in vivo conditions. Interestingly, EE exposure was found to induce the synthesis of BACE1 and endogenous Aβ in BT paradigm along with their potential interplay with PKMζ signaling to facilitate NOR-LTM consolidation. Taken together, our results provide first hand evidence of the role of BACE1 and endogenous Aβ as novel PRP complex in EE mediated BT phenomenon. The results provide significant advance in our understanding of LTM consolidation process and paves the way for exploration of novel molecular pathways involved in the process. Show less

Several protein convertase subtilisin/kexin type 9 (PCSK9) inhibitors have been shown to significantly reduce low-density lipoprotein cholesterol (LDL-C) levels in statin-intolerant patients, but none have been verified in Chinese patients. This study aimed to evaluate the efficacy and safety of ongericimab, a novel PCSK9 monoclonal antibody, in Chinese statin-intolerant patients with primary hypercholesterolemia or mixed dyslipidemia. This was a randomized, multicenter, double-blind, placebo-controlled phase 3 study designed to enroll 120 statin-intolerant adult patients. Eligible patients were randomly assigned in a 2:1 ratio to receive ongericimab 150 mg or placebo subcutaneously every 2 weeks for 12 weeks in the double-blind treatment period, followed by 40 weeks of ongericimab treatment during the open-label period. The primary endpoint was a percentage change in LDL-C from baseline to week 12. The key secondary endpoints included percentage change from baseline to week 12 in non-high density lipoprotein cholesterol (non-HDL-C), apolipoprotein B (ApoB), total cholesterol (TC), and lipoprotein(a) [Lp(a)]. From February 6, 2023, to September 23, 2024, a total of 139 patients were enrolled. The least-squares (LS) mean difference between ongericimab and placebo groups in LDL-C from baseline to week 12 was -66.2 % (95 % CI: 74.2 %, -58.2 %; p < 0.0001), with reductions sustained up to week 52. Ongericimab also significantly reduced levels of non-HDL-C, ApoB, TC, and Lp(a). The overall incidence of treatment-emergent adverse events was comparable between the ongericimab and placebo groups. Ongericimab significantly reduced LDL-C as well as other atherogenic lipid levels and was well tolerated in Chinese statin-intolerant patients with primary hypercholesterolemia or mixed dyslipidemia. http://www. gov; Unique Identifier: NCT05621070. Show less

This study aims to investigate the molecular differences and commonalities between systemic sclerosis (SSc) and systemic lupus erythematosus (SLE) by analyzing RNA-sequencing (RNA-seq) data. By focusing on differentially expressed genes and enriched pathways, the investigation seeks to identify unique biomarkers, shared pathways, and potential therapeutic targets for these autoimmune diseases. This study involved 10 patients with SSc and 24 with SLE who did not receive immunosuppressants. RNA-seq data from patients with SSc and SLE were analyzed using DESeq2 to identify differentially expressed genes. Functional and pathway enrichment analyses were conducted and comparative analyses were performed. We identified 2055 differentially expressed genes (DEGs) between patients with SSc and controls. Notably, the expression of the shared gene RGS5 was significantly downregulated in both SLE and SSc, with a more pronounced downregulation in SSc. Additionally, the expression of the key transcription factor EGR1 was upregulated in SSc, whereas that of BLK, ITGAM, and IFNG was upregulated in SLE. Network analysis identified hub genes-AP3D1, FTX, USP47, CUX1, ZC3H4, CAND1, INTS1, TRNT1, MTERF1, and SETD1B-that may play critical roles in the progression of both SLE and SSc. These findings suggest that RGS5 could serve as a shared biomarker for vascular dysfunction, while EGR1 and BLK may represent therapeutic targets in SSc and SLE. Overall, this analysis enhances understanding of distinct and overlapping gene expression signatures in SSc and SLE, providing a foundation for future targeted treatment strategies and requiring further validation in larger cohorts. Show less

During obesity, the excessive accumulation of fat in tissue promotes dysregulated hormonal and cytokine homeostasis that triggers chronic inflammation, which is, in part, associated with an increased incidence of some cancers. This protumoral inflammatory environment is further exacerbated through the secretome of mature adipocytes, which promotes tumor angiogenesis. Emerging studies suggest that human adipocyte-derived mesenchymal stromal/stem cells (ADMSCs) may contribute to a complementary process supporting local angiogenesis termed vasculogenic mimicry (VM). The molecular mechanisms linking ADMSCs to VM and inflammation remain poorly understood. ADMSC 3D capillary-like structures were generated upon seeding on Cultrex. Structure analysis was performed using WIMASIS. Total RNA was extracted using TRIzol and RT-qPCR was performed to assess gene expression or screen RT Our findings revealed that in vitro priming of ADMSCs with Cultrex led to the formation of 3D capillary-like structures and the acquisition of an inflammatory molecular signature. VM-derived ADMSCs share a common proinflammatory molecular signature similar to that induced in 2D ADMSC monolayers by tumor necrosis factor (TNF)-alpha and are characterized by upregulated expression of COX2, CCL2, CCL5, CXCL5, CXCL8, IL-6, SNAI1, and MMP9. Interestingly, pharmacological inhibition or gene silencing of the JAK2/STAT3 signaling pathway reduced chemotactic cell migration, in vitro VM and the expression of proinflammatory and invasive biomarkers. Overall, we provide novel evidence that inhibiting JAK2/STAT3-regulated VM can also alter the acquisition of a proinflammatory signature and prevent the contribution of ADMSCs to alternative tumor neovascularization processes. Show less

Glucagon-like peptide-1 receptor (GLP-1R)/glucose-dependent insulinotropic peptide receptor (GIPR) agonistic analogs have yielded superior results in enhancing glycemic control and weight management compared to GLP-1R agonism alone. Intriguingly, GIPR agonism appears to induce antiemetic effects, potentially alleviating part of the nausea and vomiting side effects common to GLP-1R agonists like semaglutide. Here, we show in rats and shrews that GIPR agonism blocks emesis and attenuates other malaise behaviors elicited by GLP-1R activation while maintaining reduced food intake and body weight loss and improved glucose tolerance. The GLP-1R/GIPR agonist tirzepatide induced significantly fewer side effects than equipotent doses of semaglutide. These findings underscore the therapeutic potential of combined pharmaceutical strategies activating both incretin systems, leading to enhanced therapeutic index and reduced occurrence of nausea and vomiting for obesity and diabetes treatments. Show less