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Epigenetics and expression of key genes associated with cardiac fibrosis: <i>NLRP3, MMP2, MMP9, CCN2/CTGF</i> and <i>AGT</i>

Sruti Chandra, Kenneth C. Ehrlich, Michelle Lacey, Carl Baribault, Melanie Ehrlich

2021Epigenomics28 citationsDOIOpen Access PDF

Abstract

Aims: Excessive inflammatory signaling and pathological remodeling of the extracellular matrix drive cardiac fibrosis and require changes in gene expression. Materials and methods: Using bioinformatics, both tissue-specific expression profiles and epigenomic profiles of some genes critical for cardiac fibrosis were examined, namely, NLRP3, MMP2, MMP9, CCN2/CTGF, AGT (encodes angiotensin II precursors) and hsa-mir-223 (post-transcriptionally regulates NLRP3). Results: In monocytes, neutrophils, fibroblasts, venous cells, liver and brain, enhancers or super-enhancers were found that correlate with high expression of these genes. One enhancer extended into a silent gene neighbor. These enhancers harbored tissue-specific foci of DNA hypomethylation, open chromatin and transcription factor binding. Conclusions: This study identified previously undescribed enhancers containing hypomethylated transcription factor binding subregions that are predicted to regulate expression of these cardiac fibrosis-inducing genes.

Topics & Concepts

CTGFBiologyEnhancerTranscription factorEpigeneticsCardiac fibrosisFibrosisDNA methylationMMP9MMP2Cell biologyChromatin remodelingGeneEpigenomicsGene expressionCancer researchGeneticsGrowth factorPathologyDownregulation and upregulationMedicineReceptorConnective Tissue Growth Factor ResearchPulmonary Hypertension Research and TreatmentsConnective tissue disorders research
Epigenetics and expression of key genes associated with cardiac fibrosis: <i>NLRP3, MMP2, MMP9, CCN2/CTGF</i> and <i>AGT</i> | Litcius