High glucose facilitated endothelial heparanase transfer to the cardiomyocyte modifies its cell death signature

Wang, Fulong; Jia, Jocelyn; Lal, Nathaniel; Zhang, Dahai; Chiu, Alan; Wan, Andrea; Vlodavsky, Israël; Hussein, Bahira; Rodrigues, Brian

doi:10.1093/cvr/cvw211

Cited by 15 publications

(12 citation statements)

References 47 publications

(64 reference statements)

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“…The LDL receptor-related protein 1, which is encoded by LRP1, is a large endocytic and signaling receptor [21]. An animal study showed that LRP1 expression was increased in cardiomyocytes isolated from acutely diabetic rats [22]. Other studies reported the upregulation of LRP1 in epicardial fat and skin from diabetic patients compared with control individuals, which was consistent with our findings [23,24].…”

Section: Discussionsupporting

confidence: 91%

Identification of Susceptibility Modules and Genes for Cardiovascular Disease in Diabetic Patients Using WGCNA Analysis

Liang

Sun

Zhao

et al. 2020

Journal of Diabetes Research

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Objective. To identify susceptibility modules and genes for cardiovascular disease in diabetic patients using weighted gene coexpression network analysis (WGCNA). Methods. The raw data of GSE13760 were downloaded from the Gene Expression Omnibus (GEO) website. Genes with a false discovery rate<0.05 and a log2 fold change≥0.5 were included in the analysis. WGCNA was used to build a gene coexpression network, screen important modules, and filter the hub genes. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses were performed for the genes in modules with clinical interest. Genes with a significance over 0.2 and a module membership over 0.8 were used as hub genes. Subsequently, we screened these hub genes in the published genome-wide SNP data of cardiovascular disease. The overlapped genes were defined as key genes. Results. Fourteen gene coexpression modules were constructed via WGCNA analysis. Module greenyellow was mostly significantly correlated with diabetes. The GO analysis showed that genes in the module greenyellow were mainly enriched in extracellular matrix organization, extracellular exosome, and calcium ion binding. The KEGG analysis showed that the genes in the module greenyellow were mainly enriched in antigen processing and presentation, phagosome. Fifteen genes were identified as hub genes. Finally, HLA-DRB1, LRP1, and MMP2 were identified as key genes. Conclusion. This was the first study that used the WGCNA method to construct a coexpression network to explore diabetes-associated susceptibility modules and genes for cardiovascular disease. Our study identified a module and several key genes that acted as essential components in the etiology of diabetes-associated cardiovascular disease, which may enhance our fundamental knowledge of the molecular mechanisms underlying this disease.

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Section: Discussionsupporting

confidence: 91%

Identification of Susceptibility Modules and Genes for Cardiovascular Disease in Diabetic Patients Using WGCNA Analysis

Liang

Sun

Zhao

et al. 2020

Journal of Diabetes Research

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“…By acting directly on the apoptotic receptor and ligand, heparanase was able to provide protection of the cells against high glucose and H 2 O 2 induced cell-death. 46 The elucidation of transcription regulation by heparanase re-…”

Section: Discussionmentioning

confidence: 99%

Transcriptomic analysis reveals cell apoptotic signature modified by heparanase in melanoma cells

Song

Spillmann

2019

J Cellular Molecular Medi

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Heparanase has been implicated in many pathological conditions, especially inflammation and cancer, attributed to its degradation of heparan sulfate, a crucial component maintaining the integrity of the extracellular matrix. By silencing the heparanase gene (HPSE) in MDA‐MB‐435s melanoma cells, we investigated the impact of this protein on gene transcription. Transcriptome sequencing yielded a list of 279 differentially expressed genes, of which 140 were up‐regulated and 239 down‐regulated. The 140 up‐regulated genes were classified into a substantial set of gene ontology defined functions, for example, positive regulation of cell death, apoptotic process, response to cytokine, while 239 down‐regulated genes classify only into the two categories: nucleosome and nucleosome assembly. Our focus was drawn to an array of 28 pro‐apoptotic genes regulated by heparanase: real‐time PCR experiments further validated up‐regulation of EGR1, TXNIP, AXL, CYR61, LIMS2 and TNFRSF12A by at least 1.5‐fold, among which EGR1, CYR61, and TNFRSF12A were confirmed on protein level. We demonstrated significantly increased apoptotic cells by TUNEL staining upon HPSE silencing, mediated by activation of caspase 3/PARP1 pathway. The pro‐apoptotic gene expression and observation of apoptosis were extended to another melanoma cell line, MV3 cells, thus consolidating the anti‐apoptosis effect of heparanase in melanoma cells.

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“…Nowadays, heparanase is well established as a cancer drug target, and several inhibitors have progressed to clinical trials [31,34]. In recent years, heparanase has also been implicated in a range of other diseases, such as diabetes and its complications [35][36][37], kidney disease [38], atherosclerosis [39,40] and viral infections [41], to name a few, which continues to fuel research into this protein.…”

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confidence: 99%

Forty Years of Basic and Translational Heparanase Research

Vlodavsky

Ilan

Sanderson

2020

Advances in Experimental Medicine and Biology

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High glucose facilitated endothelial heparanase transfer to the cardiomyocyte modifies its cell death signature

Cited by 15 publications

References 47 publications

Identification of Susceptibility Modules and Genes for Cardiovascular Disease in Diabetic Patients Using WGCNA Analysis

Identification of Susceptibility Modules and Genes for Cardiovascular Disease in Diabetic Patients Using WGCNA Analysis

Transcriptomic analysis reveals cell apoptotic signature modified by heparanase in melanoma cells

Forty Years of Basic and Translational Heparanase Research

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