LTBP2 knockdown by siRNA reverses myocardial oxidative stress injury, fibrosis and remodelling during dilated cardiomyopathy

Xuefeng, Pang; Xue, Liyan; Du, Jianjun; Zeng, Dingyin

doi:10.1111/apha.13377

Cited by 28 publications

(29 citation statements)

References 42 publications

(84 reference statements)

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“…The DOX mouse model also exhibits progressive cardiac functional decline and ventricular dilation (29), which is consistent with the diagnosis of dcM. In addition, while the specific pathogenesis of DCM and the mechanism of its progressive progression remain unknown, previous studies revealed that the development of dcM may be associated with decreased mitochondrial function (56), abnormal oxidative stress (57,58), as well as excessive myocardial apoptosis and necrosis (59,60). In line with these possible causes, it has also been reported that the DOX model is accompanied by similar mitochondrial dysfunction (29,61), oxidative stress injury (62) and apoptotic changes (63).…”

Section: Discussionsupporting

confidence: 64%

Integrated microarray analysis to identify potential biomarkers and therapeutic targets in dilated cardiomyopathy

et al. 2020

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dilated cardiomyopathy (dcM) is a primary cardiomyopathy with high mortality. The aim of the present study was to identify the related genes in dcM. The four expression profiles (GSE17800, GSE21610, GSE42955 and GSE79962) downloaded from the Gene Expression Omnibus (GEO) database were analyzed using RankProd and metaMA R packages to identify differentially expressed genes (DEGs). DEGs were uploaded to the Database for Annotation, Visualization and Integrated Discovery (DAVID), for Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis. a protein-protein interaction (PPi) network of the DEGs was constructed using the STRING database. In addition, hub genes were identified using the Cytoscape plugin cytoHubba. A mouse DCM model, which established via intraperitoneal injection with doxorubicin (DOX), was used to validate the hub genes. A total of 898 DEGs were identified across the four microarrays. Furthermore, GO analysis demonstrated that these DEGs were mainly enriched in cell adhesion, negative regulation of cell proliferation, negative regulation of apoptotic process and potassium ion transport. in addition, KEGG analysis revealed that DEGs were mainly enriched in the ecM-receptor interaction, the p53 signaling pathway, cardiac muscle contraction and the hypoxia-inducible factor signaling pathway. Proenkephalin (PENK), chordin like 1 (CHRDL1), calumenin (CALU), apolipoprotein L1, insulin-like growth factor binding protein 3 (IGFBP3) and ceruloplasmin (CP) were identified as hub genes in the PPI network. Furthermore, the expression levels of PENK, CHRDL1, IGFBP3, CP and CALU in hearts with dcM were validated using a mouse model. in conclusion, the present study identified six hub genes related to dcM. Therefore, the present results may provide a potential mechanism for DCM involving these hub genes, which may serve as biomarkers for screening and diagnosis in the clinic.

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Section: Discussionsupporting

confidence: 64%

Integrated microarray analysis to identify potential biomarkers and therapeutic targets in dilated cardiomyopathy

et al. 2020

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“…We noted three genes, Postn (periostin), Ltbp2 (latent TGF-β binding protein 2), and Thbs4 of interest in cluster 5. While Postn, an ECM protein, is critical for tissue development and regeneration and plays a role in wound healing and ventricular remodeling in myocardial events 41 , Ltbp2 and Thbs4 have roles in myocardial fibrosis in DCM 42 or the fibrotic process 43 . Similarly, three transcripts, Apoe , Tgfbi, and Mfap4, were found interesting in cluster 6.…”

Section: Resultsmentioning

confidence: 99%

“…Our scRNAseq analysis revealed 12 distinct clusters that express overlapping genes ( Fig 4A, B, C ). Several of these ( Wif1a, Npy ) 47 have been previously shown to be involved in wound healing, ventricular/cardiac remodeling, and myocardial fibrosis in DCM pathogenesis ( Ltbp2 , Thbs4 and Tgfbi ) 24, 42, 43 . However, a subset of genes ( Mt1, Mt2, Cxcl1 ) 25, 30 that have immune modulatory roles and promote angiogenesis ( Vegfd ) were also detected in various clusters.…”

Section: Discussionmentioning

confidence: 99%

Dissecting the Cellular Landscape and Transcriptome Network in Viral Myocarditis by Single-Cell RNA Sequencing

Lasrado

Borcherding

Arumugam

et al. 2021

Preprint

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Myocarditis induced with Coxsackievirus B3 (CVB3) is commonly employed to study viral pathogenesis in mice. Although infectious virus is cleared after the acute phase, affected animals chronically develop the features of dilated cardiomyopathy, which may involve the mediation of immune and non-immune cells. To dissect this complexity, we performed single-cell RNA sequencing on heart cells obtained from healthy and myocarditic mice, leading us to note that myocarditic mice had significantly higher proportions of myeloid cells, CD4 and CD8 T cells, and fibroblasts, whereas NK cells, ILCs and B cells were low. While the transcriptome profiles of myeloid cells revealed detection of monocytes and macrophages of M2 phenotype with pathways important in immune metabolism and inflammation, T cells consisted of Th17 cells, CTLs, and Treg cells with transcriptome signatures critical for cytotoxic functions. Although fibroblasts detected in myocarditic mice were phenotypically heterogeneous, their transcriptomes played roles in fibrosis and regulation of inflammation and immune responses. Additionally, analysis of intercellular communication networks revealed unique interactions and signaling pathways in the cardiac cellulome, whereas myeloid cells and T cells in myocarditic mice revealed uniquely upregulated transcription factors modulating cardiac remodeling functions. Taken together, our data suggest that M2 cells, T cells, and fibroblasts may cooperatively or independently participate in the pathogenesis of viral myocarditis.

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“…An in vivo study investigated the role of LTBP2 in these processes. 11 Lamin A/C ( LMNA ) mutation causes not only DCM but also heart block. The mechanism underlying LMNA nonsense mutation-induced cardiac conduction defects through atrioventricular (AV) node fibrosis is upregulated extracellular cellular matrix gene expression upon activation of cardiac apoptosis; this explains heart block in LMNA mutation-carrying DCM patients.…”

Section: Dilated Cardiomyopathymentioning

confidence: 99%

Cardiomyopathies in China: A 2018–2019 state‐of‐the‐art review

Hua

Zhang

2020

Chronic Diseases and Translational Medicine

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Cardiomyopathies are diseases of the cardiac muscle and are often characterized by ventricular dilation, hypertrophy, and cardiac arrhythmia. Patients with cardiomyopathies often experience sudden death and cardiac failure and require cardiac transplantation during the course of disease progression. Early diagnosis, differential diagnosis, and genetic consultation depend on imaging techniques, genetic testing, and new emerging diagnostic tools such as serum biomarkers. The molecular genetics of cardiomyopathies has been widely studied recently. The discovery of mechanisms underlying heterogeneity and overlapping of the phenotypes of cardiomyopathies has revealed the existence of disease modifiers, and this has led to the emergence of novel disease-modifying therapy. This 2018–2019 state-of-the-art review outlines the pathogenesis, diagnosis, and treatment of cardiomyopathies in China.

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LTBP2 knockdown by siRNA reverses myocardial oxidative stress injury, fibrosis and remodelling during dilated cardiomyopathy

Cited by 28 publications

References 42 publications

Integrated microarray analysis to identify potential biomarkers and therapeutic targets in dilated cardiomyopathy

Integrated microarray analysis to identify potential biomarkers and therapeutic targets in dilated cardiomyopathy

Dissecting the Cellular Landscape and Transcriptome Network in Viral Myocarditis by Single-Cell RNA Sequencing

Cardiomyopathies in China: A 2018–2019 state‐of‐the‐art review

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