Deletion of the Lmna gene in fibroblasts causes senescence-associated dilated cardiomyopathy by activating the double-stranded DNA damage response and induction of senescence-associated secretory phenotype.

The journal of cardiovascular aging Pub Date : 2022-07-01 Epub Date: 2022-06-10 DOI:10.20517/jca.2022.14

Leila Rouhi, Gaelle Auguste, Qiong Zhou, Raffaella Lombardi, Melis Olcum, Kimia Pourebrahim, Sirisha M Cheedipudi, Saman Asghar, Kui Hong, Matthew J Robertson, Cristian Coarfa, Priyatansh Gurha, Ali J Marian

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Abstract

Introduction: Mutations in the LMNA gene, encoding Lamin A/C (LMNA), are established causes of dilated cardiomyopathy (DCM). The phenotype is typically characterized by progressive cardiac conduction defects, arrhythmias, heart failure, and premature death. DCM is primarily considered a disease of cardiac myocytes. However, LMNA is also expressed in other cardiac cell types, including fibroblasts.

Aim: The purpose of the study was to determine the contribution of the fibroblasts to DCM caused by LMNA deficiency.

Methods and results: The Lmna gene was deleted by crossing the platelet-derived growth factor receptor α-Cre recombinase (Pdgfra-Cre) and floxed Lmna (Lmna ^F/F) mice. The LMNA protein was nearly absent in ~80% of the cardiac fibroblasts and ~25% of cardiac myocytes in the Pdgfra-Cre:Lmna ^F/F mice. The Pdgfra-Cre:Lmna ^F/F mice showed an early phenotype characterized by cardiac conduction defects, arrhythmias, cardiac dysfunction, myocardial fibrosis, apoptosis, and premature death within the first six weeks of life. The Pdgfra-Cre:Lmna ^{wild type/F} (Lmna ^W/F) mice also showed a similar but slowly evolving phenotype that was expressed within one year of age. RNA sequencing of LMNA-deficient and wild-type cardiac fibroblasts identified differential expression of ~410 genes, which predicted activation of the TP53 and TNFA/NFκB and suppression of the cell cycle pathways. In agreement with these findings, levels of phospho-H2AFX, ATM, phospho-TP53, and CDKN1A, markers of the DNA damage response (DDR) pathway, were increased in the Pdgfra-Cre:Lmna ^F/F mouse hearts. Moreover, expression of senescence-associated beta-galactosidase was induced and levels of the senescence-associated secretory phenotype (SASP) proteins TGFβ1, CTGF (CCN2), and LGLAS3 were increased as well as the transcript levels of additional genes encoding SASP proteins in the Pdgfra-Cre:Lmna ^F/F mouse hearts. Finally, expression of pH2AFX, a bonafide marker of the double-stranded DNA breaks, was increased in cardiac fibroblasts isolated from the Pdgfra-Cre:Lmna ^F/F mouse hearts.

Conclusion: Deletion of the Lmna gene in fibroblasts partially recapitulates the phenotype of the LMNA-associated DCM, likely through induction of double-stranded DNA breaks, activation of the DDR pathway, and induction of expression of the SASP proteins. The findings indicate that the phenotype in the LMNA-associated DCM is the aggregate consequence of the LMNA deficiency in multiple cardiac cells, including cardiac fibroblasts.

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在成纤维细胞中缺失Lmna基因通过激活双链DNA损伤反应和诱导衰老相关的分泌表型导致衰老相关的扩张性心肌病。

简介:编码纤层蛋白A/C (LMNA)的LMNA基因突变是扩张型心肌病(DCM)的确定原因。该表型的典型特征是进行性心脏传导缺陷、心律失常、心力衰竭和过早死亡。DCM主要被认为是一种心肌细胞疾病。然而，LMNA也在其他心脏细胞类型中表达，包括成纤维细胞。目的:研究成纤维细胞在LMNA缺乏引起的DCM中的作用。方法与结果:将血小板源性生长因子受体α-Cre重组酶(Pdgfra-Cre)与固定的Lmna (Lmna F/F)小鼠杂交，缺失Lmna基因。在pdgfr - cre: LMNA F/F小鼠中，约80%的心肌成纤维细胞和约25%的心肌细胞几乎不存在LMNA蛋白。pdgfr - cre:Lmna F/F小鼠在出生后的前6周内表现出以心脏传导缺陷、心律失常、心功能障碍、心肌纤维化、细胞凋亡和过早死亡为特征的早期表型。pdgfr - cre:Lmna野生型/F (Lmna W/F)小鼠也表现出类似但进化缓慢的表型，该表型在1岁内表达。对lmna缺陷型和野生型心脏成纤维细胞进行RNA测序，发现约410个基因的差异表达，这预示着TP53和TNFA/NFκB的激活和细胞周期通路的抑制。与这些发现一致，pdgfr - cre:Lmna F/F小鼠心脏中DNA损伤反应(DDR)途径的标志物phospho-H2AFX、ATM、phospho-TP53和CDKN1A的水平升高。此外，诱导衰老相关β -半乳糖苷酶的表达，增加衰老相关分泌表型(SASP)蛋白tgf - β1、CTGF (CCN2)和LGLAS3的水平，以及pdgfr - cre:Lmna F/F小鼠心脏中编码SASP蛋白的其他基因的转录水平。最后，从pdgfr - cre:Lmna F/F小鼠心脏分离的心脏成纤维细胞中，双链DNA断裂的真正标记物pH2AFX的表达增加。结论:成纤维细胞中Lmna基因的缺失部分再现了Lmna相关DCM的表型，可能通过诱导双链DNA断裂、激活DDR通路和诱导SASP蛋白的表达。研究结果表明，LMNA相关DCM的表型是多种心脏细胞(包括心脏成纤维细胞)LMNA缺乏的综合结果。

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The journal of cardiovascular aging

CiteScore

2.40

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0.00%

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