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Loss ofProx1in striated muscle causes slow to fast skeletal muscle fiber conversion and dilated cardiomyopathy
Author(s) -
Louisa K. Petchey,
Catherine A. Risebro,
Joaquim Miguel Vieira,
Thomas A. Roberts,
John B. Bryson,
Linda Greensmith,
Mark F. Lythgoe,
Paul R. Riley
Publication year - 2014
Publication title -
proceedings of the national academy of sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.011
H-Index - 771
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.1406191111
Subject(s) - skeletal muscle , troponin , myosin , myh7 , biology , cardiac muscle , myocyte , contractility , conditional gene knockout , troponin i , troponin c , myh6 , medicine , homeobox , dilated cardiomyopathy , endocrinology , myosin light chain kinase , microbiology and biotechnology , phenotype , genetics , gene , heart failure , gene expression , myocardial infarction
Correct regulation of troponin and myosin contractile protein gene isoforms is a critical determinant of cardiac and skeletal striated muscle development and function, with misexpression frequently associated with impaired contractility or disease. Here we reveal a novel requirement for Prospero-related homeobox factor 1 (Prox1) during mouse heart development in the direct transcriptional repression of the fast-twitch skeletal muscle genes troponin T3, troponin I2, and myosin light chain 1. A proportion of cardiac-specific Prox1 knockout mice survive beyond birth with hearts characterized by marked overexpression of fast-twitch genes and postnatal development of a fatal dilated cardiomyopathy. Through conditional knockout of Prox1 from skeletal muscle, we demonstrate a conserved requirement for Prox1 in the repression of troponin T3, troponin I2, and myosin light chain 1 between cardiac and slow-twitch skeletal muscle and establish Prox1 ablation as sufficient to cause a switch from a slow- to fast-twitch muscle phenotype. Our study identifies conserved roles for Prox1 between cardiac and skeletal muscle, specifically implicated in slow-twitch fiber-type specification, function, and cardiomyopathic disease.

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