Reversible cardiac disease features in an inducible CUG repeat RNA–expressing mouse model of myotonic dystrophy
Ashish N. Rao, Hannah M. Campbell, Xiangnan Guan, Tarah A. Word, Xander H.T. Wehrens, Zheng Xia, Thomas A. Cooper
Ashish N. Rao, Hannah M. Campbell, Xiangnan Guan, Tarah A. Word, Xander H.T. Wehrens, Zheng Xia, Thomas A. Cooper
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Research Article Cardiology Cell biology

Reversible cardiac disease features in an inducible CUG repeat RNA–expressing mouse model of myotonic dystrophy

Abstract

Myotonic dystrophy type 1 (DM1) is caused by a CTG repeat expansion in the DMPK gene. Expression of pathogenic expanded CUG repeat (CUGexp) RNA causes multisystemic disease by perturbing the functions of RNA-binding proteins, resulting in expression of fetal protein isoforms in adult tissues. Cardiac involvement affects 50% of individuals with DM1 and causes 25% of disease-related deaths. We developed a transgenic mouse model for tetracycline-inducible and heart-specific expression of human DMPK mRNA containing 960 CUG repeats. CUGexp RNA is expressed in atria and ventricles and induced mice exhibit electrophysiological and molecular features of DM1 disease, including cardiac conduction delays, supraventricular arrhythmias, nuclear RNA foci with Muscleblind protein colocalization, and alternative splicing defects. Importantly, these phenotypes were rescued upon loss of CUGexp RNA expression. Transcriptome analysis revealed gene expression and alternative splicing changes in ion transport genes that are associated with inherited cardiac conduction diseases, including a subset of genes involved in calcium handling. Consistent with RNA-Seq results, calcium-handling defects were identified in atrial cardiomyocytes isolated from mice expressing CUGexp RNA. These results identify potential tissue-specific mechanisms contributing to cardiac pathogenesis in DM1 and demonstrate the utility of reversible phenotypes in our model to facilitate development of targeted therapeutic approaches.

Authors

Ashish N. Rao, Hannah M. Campbell, Xiangnan Guan, Tarah A. Word, Xander H.T. Wehrens, Zheng Xia, Thomas A. Cooper

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Figure 7

CUGexp RNA induced alternative splicing changes in atria and ventricles.

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CUGexp RNA induced alternative splicing changes in atria and ventricles....
(A) Violin plots depicting the distribution of splicing events based on ΔPSI and types of AS changes observed in atria and ventricles of CUG960 +dox mice. (B) Overlap observed between genes showing alternative splicing changes in atria and ventricles of CUG960 +dox mice. Genes showing differential alternative splicing changes in (C) atria and (D) ventricles in CUG960 +dox mice were evaluated for enrichment of gene ontology functional terms using DAVID platform. Cutoff > –log (P value) = 1.5. (E) Representative RT-PCRs showing alternative splicing changes for candidate ion transport genes, Scn5a, Kcnd3, Kcnip2, Ryr2, and Camk2d, in atria and ventricles of CUG960 +dox mice in comparison with MHCrtTA +dox controls. n = 2 animals per group. CUGexp, expanded CUG repeat; dox, doxycycline; CE, cassette exons; MXE, mutually exclusive exons; Alt 5′ss/Alt 3′ss, alternative 5′/alternative 3’ splice site; IR, intron retention.