RBPMS2 Is a Myocardial-Enriched Splicing Regulator Required for Cardiac Function-Reference-Cited by-同舟云学术

RBPMS2 Is a Myocardial-Enriched Splicing Regulator Required for Cardiac Function

Published:2022-12-02 Issue:12 Volume:131 Page:980-1000
ISSN:0009-7330
Container-title:Circulation Research
language:en
Short-container-title:Circulation Research

Author:

Akerberg Alexander A.¹²³^ORCID,Trembley Michael¹³,Butty Vincent⁴⁵,Schwertner Asya²³^ORCID,Zhao Long³,Beerens Manu³⁶,Liu Xujie¹³,Mahamdeh Mohammed²³^ORCID,Yuan Shiaulou²³,Boyer Laurie⁵⁷,MacRae Calum³⁶^ORCID,Nguyen Christopher²³⁸^ORCID,Pu William T.¹³⁹^ORCID,Burns Caroline E.¹²³⁹^ORCID,Burns C. Geoffrey¹²³^ORCID

Affiliation:

1. Division of Basic and Translational Cardiovascular Research, Department of Cardiology, Boston Children’s Hospital, Boston‚ MA (A.A.A., M.T., X.L., W.T.P., C.E.B., C.G.B.).

2. Cardiovascular Research Center, Massachusetts General Hospital, Charlestown‚ MA (A.A.A., A.S., L.Z., M.M., S.Y., C.N., C.E.B., C.G.B.).

3. Harvard Medical School, Boston, MA (A.A.A., M.T., A.S., L.Z., M.B., X.L., M.M., S.Y., C.M., C.N., W.T.P., C.E.B., C.G.B.).

4. BioMicroCenter, Department of Biology (V.B.), Massachusetts Institute of Technology, Cambridge‚ MA.

5. Department of Biology (V.B., L.B.), Massachusetts Institute of Technology, Cambridge‚ MA.

6. Division of Cardiovascular Medicine, Brigham and Women’s Hospital, Boston, MA (M.B., C.M.).

7. Department of Biological Engineering (L.B.), Massachusetts Institute of Technology, Cambridge‚ MA.

8. Cardiovascular Innovation Research Center, Heart Vascular & Thoracic Institute, Cleveland Clinic‚ Cleveland‚ OH (C.N.).

9. Harvard Stem Cell Institute, Cambridge, MA (W.T.P., C.E.B.).

Abstract

Background: RBPs (RNA-binding proteins) perform indispensable functions in the post-transcriptional regulation of gene expression. Numerous RBPs have been implicated in cardiac development or physiology based on gene knockout studies and the identification of pathogenic RBP gene mutations in monogenic heart disorders. The discovery and characterization of additional RBPs performing indispensable functions in the heart will advance basic and translational cardiovascular research. Methods: We performed a differential expression screen in zebrafish embryos to identify genes enriched in nkx2.5 -positive cardiomyocytes or cardiopharyngeal progenitors compared to nkx2.5 -negative cells from the same embryos. We investigated the myocardial-enriched gene RNA-binding protein with multiple splicing (variants) 2 [ RBPMS2 )] by generating and characterizing rbpms2 knockout zebrafish and human cardiomyocytes derived from RBPMS2 -deficient induced pluripotent stem cells. Results: We identified 1848 genes enriched in the nkx2.5 -positive population. Among the most highly enriched genes, most with well-established functions in the heart, we discovered the ohnologs rbpms2a and rbpms2b , which encode an evolutionarily conserved RBP. Rbpms2 localizes selectively to cardiomyocytes during zebrafish heart development and strong cardiomyocyte expression persists into adulthood. Rbpms2-deficient embryos suffer from early cardiac dysfunction characterized by reduced ejection fraction. The functional deficit is accompanied by myofibril disarray, altered calcium handling, and differential alternative splicing events in mutant cardiomyocytes. These phenotypes are also observed in RBPMS2-deficient human cardiomyocytes, indicative of conserved molecular and cellular function. RNA-sequencing and comparative analysis of genes mis-spliced in RBPMS2-deficient zebrafish and human cardiomyocytes uncovered a conserved network of 29 ortholog pairs that require RBPMS2 for alternative splicing regulation, including RBFOX2, SLC8A1 , and MYBPC3 . Conclusions: Our study identifies RBPMS2 as a conserved regulator of alternative splicing, myofibrillar organization, and calcium handling in zebrafish and human cardiomyocytes.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Cardiology and Cardiovascular Medicine,Physiology

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