miR-486 is essential for muscle function and suppresses a dystrophic transcriptome

miR-486 is a muscle-enriched microRNA, or "myomiR," that has reduced expression correlated with Duchenne muscular dystrophy (DMD). To determine the function of miR-486 in normal and dystrophin-deficient muscles and elucidate miR-486 target transcripts in skeletal muscle, we characterized k...

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Veröffentlicht in:	Life science alliance 2022-09, Vol.5 (9), p.e202101215
Hauptverfasser:	Samani, Adrienne, Hightower, Rylie M, Reid, Andrea L, English, Katherine G, Lopez, Michael A, Doyle, J Scott, Conklin, Michael J, Schneider, David A, Bamman, Marcas M, Widrick, Jeffrey J, Crossman, David K, Xie, Min, Jee, David, Lai, Eric C, Alexander, Matthew S
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Sprache:	eng
Schlagworte:	Animals Dystrophin - genetics Mice Mice, Inbred mdx MicroRNAs - genetics MicroRNAs - metabolism Muscle, Skeletal - metabolism Transcriptome - genetics
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creator	Samani, Adrienne Hightower, Rylie M Reid, Andrea L English, Katherine G Lopez, Michael A Doyle, J Scott Conklin, Michael J Schneider, David A Bamman, Marcas M Widrick, Jeffrey J Crossman, David K Xie, Min Jee, David Lai, Eric C Alexander, Matthew S
description	miR-486 is a muscle-enriched microRNA, or "myomiR," that has reduced expression correlated with Duchenne muscular dystrophy (DMD). To determine the function of miR-486 in normal and dystrophin-deficient muscles and elucidate miR-486 target transcripts in skeletal muscle, we characterized knockout mice ( KO). KO mice developed disrupted myofiber architecture, decreased myofiber size, decreased locomotor activity, increased cardiac fibrosis, and metabolic defects were exacerbated in KO: (DKO) mice. To identify direct in vivo miR-486 muscle target transcripts, we integrated RNA sequencing and chimeric miRNA eCLIP sequencing to identify key transcripts and pathways that contribute towards KO and dystrophic disease pathologies. These targets included known and novel muscle metabolic and dystrophic structural remodeling factors of muscle and skeletal muscle contractile transcript targets. Together, our studies identify miR-486 as essential for normal muscle function, a driver of pathological remodeling in dystrophin-deficient muscle, a useful biomarker for dystrophic disease progression, and highlight the use of multiple omic platforms to identify in vivo microRNA target transcripts.
doi_str_mv	10.26508/lsa.202101215
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To determine the function of miR-486 in normal and dystrophin-deficient muscles and elucidate miR-486 target transcripts in skeletal muscle, we characterized knockout mice ( KO). KO mice developed disrupted myofiber architecture, decreased myofiber size, decreased locomotor activity, increased cardiac fibrosis, and metabolic defects were exacerbated in KO: (DKO) mice. To identify direct in vivo miR-486 muscle target transcripts, we integrated RNA sequencing and chimeric miRNA eCLIP sequencing to identify key transcripts and pathways that contribute towards KO and dystrophic disease pathologies. These targets included known and novel muscle metabolic and dystrophic structural remodeling factors of muscle and skeletal muscle contractile transcript targets. 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subjects	Animals Dystrophin - genetics Mice Mice, Inbred mdx MicroRNAs - genetics MicroRNAs - metabolism Muscle, Skeletal - metabolism Transcriptome - genetics
title	miR-486 is essential for muscle function and suppresses a dystrophic transcriptome
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