Inhibition of mTOR or MAPK ameliorates vmhcl/myh7 cardiomyopathy in zebrafish
Haisong Bu, Yonghe Ding, Jiarong Li, Ping Zhu, Yu-Huan Shih, Mingmin Wang, Yuji Zhang, Xueying Lin, Xiaolei Xu
Haisong Bu, Yonghe Ding, Jiarong Li, Ping Zhu, Yu-Huan Shih, Mingmin Wang, Yuji Zhang, Xueying Lin, Xiaolei Xu
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Research Article Cardiology Genetics

Inhibition of mTOR or MAPK ameliorates vmhcl/myh7 cardiomyopathy in zebrafish

Abstract

Myosin heavy chain 7 (MYH7) is a major causative gene for hypertrophic cardiomyopathy, but the affected signaling pathways and therapeutics remain elusive. In this research, we identified ventricle myosin heavy chain like (vmhcl) as a zebrafish homolog of human MYH7, and we generated vmhcl frameshift mutants. We noted vmhcl-based embryonic cardiac dysfunction (VEC) in the vmhcl homozygous mutants and vmhcl-based adult cardiomyopathy (VAC) phenotypes in the vmhcl heterozygous mutants. Using the VEC model, we assessed 7 known cardiomyopathy signaling pathways pharmacologically and 11 candidate genes genetically via CRISPR/Cas9 genome editing technology based on microhomology-mediated end joining (MMEJ). Both studies converged on therapeutic benefits of mTOR or mitogen-activated protein kinase (MAPK) inhibition of VEC. While mTOR inhibition rescued the enlarged nuclear size of cardiomyocytes, MAPK inhibition restored the prolonged cell shape in the VEC model. The therapeutic effects of mTOR and MAPK inhibition were later validated in the VAC model. Together, vmhcl/myh7 loss of function is sufficient to induce cardiomyopathy in zebrafish. The VEC and VAC models in zebrafish are amenable to both efficient genetic and chemical genetic tools, offering a rapid in vivo platform for discovering candidate signaling pathways of MYH7 cardiomyopathy.

Authors

Haisong Bu, Yonghe Ding, Jiarong Li, Ping Zhu, Yu-Huan Shih, Mingmin Wang, Yuji Zhang, Xueying Lin, Xiaolei Xu

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Figure 2

Haploinsufficiency of vmhcl results in CM in adult zebrafish.

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Haploinsufficiency of vmhcl results in CM in adult zebrafish. (A) Quanti...
(A) Quantitative RT-PCR analysis of CM molecular markers. n = 3 biological replicates; 2 tailed Student’s t test. (B) Representative echocardiography images of WT controls and vmhcle13/+ mutants at diastole and systole. (C) Quantification of cardiac function indices measured using echocardiography in the vmhcle13/+ mutant and WT control at 8 months. n = 9; data are presented as the mean ± SD; unpaired 2 tailed Student’s t test. (D) Representative images of isolated hearts and quantification of the VSA normalized to the BW of fish at 8 months. n = 7; unpaired 2 tailed Student’s t test. (E) Representative images of H&E staining in the apex area and quantification of trabecular muscle density in fish at 8 months. n = 6; unpaired 2 tailed Student’s t test. (F) Maximum swimming speed of fish at 8 months. n = 9; 2-way ANOVA. (G) Kaplan–Meier survival curves of vmhcl mutant fish and WT controls. n = 25–27; log-rank test; data are presented as the mean ± SD. Scale bars: 2 mm in D and 300 μm in E.