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Elevated myocardial SORBS2 and the underlying implications in left ventricular noncompaction cardiomyopathy

Chunyan Li, Fan Liu, Shenghua Liu, Haizhou Pan, Haiwei Du, Jian Huang, Yuanyuan Xie, Yanfen Li, Ranxu Zhao, Yingjie Wei

2020EBioMedicine38 citationsDOIOpen Access PDF

Abstract

BackgroundLeft ventricular noncompaction cardiomyopathy (LVNC) is a hereditary heart disease characterized by an excessive trabecular meshwork of deep intertrabecular recesses within the ventricular myocardium. The guidelines for management of LVNC patients aim to improve quality of life by preventing cardiac heart failure. However, the mechanism underlying LVNC-associated heart failure remains poorly understood.MethodsUsing protein mass spectrometry analysis, we established that Sorbin And SH3 Domain Containing 2 (SORBS2) is up-regulated in LVNC hearts without changes to structure proteins. We conducted in vivo experiments wherein the heart tissues of wild-type mice were injected with an AAV9 vector to overexpress SORBS2, followed by analysis using echocardiography, T-tubule analysis and Ca2+ imaging to identify functional and morphological changes. In addition, we analyzed the function and structure of SORBS2 overexpressing human embryonic stem cell (hESC) derived cardiomyocytes (hESC-CM) via immunoblotting, immunohistochemistry, immunofluorescence, and confocal Ca2+ imaging.FindingsLVNC myocardial tissues feature strongly elevated expression of SORBS2, microtubule densification and redistribution of Junctophilin 2 (JP2). SORBS2 interacts with β-tubulin, promoting its polymerization in 293T cells and hESC-derived CMs. In vivo, cardiac dysfunction, β-tubulin densification, JP2 translocation, T-tubule disorganization and Ca2+ handling dysfunction were observed in mice overexpressing SORBS2.InterpretationWe identified a novel mechanism through which SORBS2 interacts with β-tubulin and promotes microtubule densification, eventually effecting JP2 distribution and T-tubule, potentially contributing to heart failure in LVNC disease.FundThis work was supported by a CAMS Initiative for Innovative Medicine grant (CAMS-I2M, 2016-I2M-1-015 to Y.J.Wei)

Topics & Concepts

CardiomyopathyHeart failureMicrotubuleCardiac function curveBiologyLeft ventricular noncompactionCell biologyIntercalated discIn vivoPathologyInternal medicineCancer researchMedicineGap junctionIntracellularBiotechnologyCardiomyopathy and Myosin StudiesMuscle Physiology and DisordersNeurogenetic and Muscular Disorders Research
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