Lauren Kerrigan, Kevin Edgar, Adam Russell-Hallinan, Oisin Cappa, Nadezhda Glezeva, Carlos Galan-Arriola, Eduardo Oliver, Borja Ibanez, John Baugh, Patrick Collier, Mark Ledwidge, Ken McDonald, David Simpson, Sudipto Das, David J. Grieve, Chris J. Watson
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In this study, we aimed to identify DNA methylation sensitive genes in the ischaemic heart and elucidate their role in cardiac fibrosis.</p>\n </section>\n \n <section>\n \n <h3> Methods</h3>\n \n <p>A multi-omics integrative analysis was carried out on RNA sequencing and methylation sequencing on HF with IHD (<i>n</i> = 9) versus non-failing (<i>n</i> = 9) left ventricular tissue, which identified Integrin beta-like 1 (<i>ITGBL1</i>) as a gene of interest. Expression of <i>Itgbl1</i> was assessed in three animal models of HF; an ischaemia-reperfusion pig model, a myocardial infarction mouse model and an angiotensin-II infused mouse model. Single nuclei RNA sequencing was carried out on heart tissue from angiotensin-II infused mice to establish the expression profile of <i>Itgbl1</i> across cardiac cell populations. Subsequent <i>in vitro</i> analyses were conducted to elucidate a role for <i>ITGBL1</i> in human cardiac fibroblasts. DNA pyrosequencing was applied to assess <i>ITGBL1</i> CpG methylation status in genomic DNA from human cardiac tissue and stimulated cardiac fibroblasts.</p>\n </section>\n \n <section>\n \n <h3> Results</h3>\n \n <p><i>ITGBL1</i> was >2-fold up-regulated (<i>FDR adj P</i> = 0.03) and >10-fold hypomethylated (<i>FDR adj P</i> = 0.01) in human HF with IHD left ventricular tissue compared with non-failing controls. Expression of <i>Itgbl1</i> was up-regulated in three isolated animal models of HF and showed conserved correlation between increased <i>Itgbl1</i> and diastolic dysfunction. Single nuclei RNA sequencing highlighted that <i>Itgbl1</i> is primarily expressed in cardiac fibroblasts, while functional studies elucidated a role for <i>ITGBL1</i> in cardiac fibroblast migration, evident in 50% reduced 24 h fibroblast wound closure occurring subsequent to siRNA-targeted <i>ITGBL1</i> knockdown. Lastly, evidence provided from DNA pyrosequencing supports the theory that differential expression of <i>ITGBL1</i> is caused by DNA hypomethylation.</p>\n </section>\n \n <section>\n \n <h3> Conclusions</h3>\n \n <p><i>ITGBL1</i> is a gene that is mainly expressed in fibroblasts, plays an important role in cardiac fibroblast migration, and whose expression is significantly increased in the failing heart. The mechanism by which increased <i>ITGBL1</i> occurs is through DNA hypomethylation.</p>\n </section>\n </div>","PeriodicalId":11864,"journal":{"name":"ESC Heart Failure","volume":"12 1","pages":"150-165"},"PeriodicalIF":3.2000,"publicationDate":"2024-09-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11769624/pdf/","citationCount":"0","resultStr":"{\"title\":\"Integrin beta-like 1 is regulated by DNA methylation and increased in heart failure patients\",\"authors\":\"Lauren Kerrigan, Kevin Edgar, Adam Russell-Hallinan, Oisin Cappa, Nadezhda Glezeva, Carlos Galan-Arriola, Eduardo Oliver, Borja Ibanez, John Baugh, Patrick Collier, Mark Ledwidge, Ken McDonald, David Simpson, Sudipto Das, David J. Grieve, Chris J. 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Expression of <i>Itgbl1</i> was up-regulated in three isolated animal models of HF and showed conserved correlation between increased <i>Itgbl1</i> and diastolic dysfunction. Single nuclei RNA sequencing highlighted that <i>Itgbl1</i> is primarily expressed in cardiac fibroblasts, while functional studies elucidated a role for <i>ITGBL1</i> in cardiac fibroblast migration, evident in 50% reduced 24 h fibroblast wound closure occurring subsequent to siRNA-targeted <i>ITGBL1</i> knockdown. Lastly, evidence provided from DNA pyrosequencing supports the theory that differential expression of <i>ITGBL1</i> is caused by DNA hypomethylation.</p>\\n </section>\\n \\n <section>\\n \\n <h3> Conclusions</h3>\\n \\n <p><i>ITGBL1</i> is a gene that is mainly expressed in fibroblasts, plays an important role in cardiac fibroblast migration, and whose expression is significantly increased in the failing heart. 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引用次数: 0
摘要
目的:心脏 DNA 甲基化的动态变化与心力衰竭(HF)的发展有关,并有证据表明存在缺血性心脏病(IHD);然而,对受 DNA 甲基化模式失调影响的细胞特异性 DNA 甲基化敏感基因的研究却很有限。在这项研究中,我们旨在确定缺血性心脏中的DNA甲基化敏感基因,并阐明它们在心脏纤维化中的作用:方法:我们对患有 IHD 的高频左心室组织(n = 9)与非衰竭左心室组织(n = 9)的 RNA 测序和甲基化测序进行了多组学综合分析,确定 Integrin beta-like 1 (ITGBL1) 为相关基因。在三种高房颤动动物模型(缺血再灌注猪模型、心肌梗塞小鼠模型和血管紧张素 II 灌注小鼠模型)中对 Itgbl1 的表达进行了评估。对注射血管紧张素 II 的小鼠心脏组织进行了单核 RNA 测序,以确定 Itgbl1 在各心脏细胞群中的表达情况。随后进行了体外分析,以阐明 ITGBL1 在人类心脏成纤维细胞中的作用。应用DNA热测序技术评估了人心脏组织和受刺激的心脏成纤维细胞基因组DNA中ITGBL1的CpG甲基化状态:结果:与非衰竭对照组相比,ITGBL1在人HF和IHD左心室组织中上调>2倍(FDR adj P = 0.03),低甲基化>10倍(FDR adj P = 0.01)。Itgbl1的表达在三种分离的高频动物模型中上调,并显示Itgbl1的增加与舒张功能障碍之间存在一致的相关性。单核 RNA 测序突出表明,Itgbl1 主要在心脏成纤维细胞中表达,而功能研究则阐明了 ITGBL1 在心脏成纤维细胞迁移中的作用,siRNA 靶向敲除 ITGBL1 后,成纤维细胞 24 小时伤口闭合率降低了 50%。最后,DNA测序提供的证据支持了ITGBL1的差异表达是由DNA低甲基化引起的理论:ITGBL1是一种主要在成纤维细胞中表达的基因,在心脏成纤维细胞迁移中起着重要作用,其表达在衰竭心脏中显著增加。ITGBL1表达增加的机制是DNA低甲基化。
Integrin beta-like 1 is regulated by DNA methylation and increased in heart failure patients
Aims
Dynamic alterations in cardiac DNA methylation have been implicated in the development of heart failure (HF) with evidence of ischaemic heart disease (IHD); however, there is limited research into cell specific, DNA methylation sensitive genes that are affected by dysregulated DNA methylation patterns. In this study, we aimed to identify DNA methylation sensitive genes in the ischaemic heart and elucidate their role in cardiac fibrosis.
Methods
A multi-omics integrative analysis was carried out on RNA sequencing and methylation sequencing on HF with IHD (n = 9) versus non-failing (n = 9) left ventricular tissue, which identified Integrin beta-like 1 (ITGBL1) as a gene of interest. Expression of Itgbl1 was assessed in three animal models of HF; an ischaemia-reperfusion pig model, a myocardial infarction mouse model and an angiotensin-II infused mouse model. Single nuclei RNA sequencing was carried out on heart tissue from angiotensin-II infused mice to establish the expression profile of Itgbl1 across cardiac cell populations. Subsequent in vitro analyses were conducted to elucidate a role for ITGBL1 in human cardiac fibroblasts. DNA pyrosequencing was applied to assess ITGBL1 CpG methylation status in genomic DNA from human cardiac tissue and stimulated cardiac fibroblasts.
Results
ITGBL1 was >2-fold up-regulated (FDR adj P = 0.03) and >10-fold hypomethylated (FDR adj P = 0.01) in human HF with IHD left ventricular tissue compared with non-failing controls. Expression of Itgbl1 was up-regulated in three isolated animal models of HF and showed conserved correlation between increased Itgbl1 and diastolic dysfunction. Single nuclei RNA sequencing highlighted that Itgbl1 is primarily expressed in cardiac fibroblasts, while functional studies elucidated a role for ITGBL1 in cardiac fibroblast migration, evident in 50% reduced 24 h fibroblast wound closure occurring subsequent to siRNA-targeted ITGBL1 knockdown. Lastly, evidence provided from DNA pyrosequencing supports the theory that differential expression of ITGBL1 is caused by DNA hypomethylation.
Conclusions
ITGBL1 is a gene that is mainly expressed in fibroblasts, plays an important role in cardiac fibroblast migration, and whose expression is significantly increased in the failing heart. The mechanism by which increased ITGBL1 occurs is through DNA hypomethylation.
期刊介绍:
ESC Heart Failure is the open access journal of the Heart Failure Association of the European Society of Cardiology dedicated to the advancement of knowledge in the field of heart failure. The journal aims to improve the understanding, prevention, investigation and treatment of heart failure. Molecular and cellular biology, pathology, physiology, electrophysiology, pharmacology, as well as the clinical, social and population sciences all form part of the discipline that is heart failure. Accordingly, submission of manuscripts on basic, translational, clinical and population sciences is invited. Original contributions on nursing, care of the elderly, primary care, health economics and other specialist fields related to heart failure are also welcome, as are case reports that highlight interesting aspects of heart failure care and treatment.
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