Litcius/Paper detail

miR-206 enforces a slow muscle phenotype

Kristen K. Bjorkman, Martin G. Guess, Brooke C. Harrison, Michael Polmear, Angela K. Peter, Leslie A. Leinwand

2020Journal of Cell Science41 citationsDOIOpen Access PDF

Abstract

Striated muscle is a highly specialized collection of tissues with contractile properties that vary according to functional needs. Although muscle fiber types are established postnatally, lifelong plasticity facilitates stimulus-dependent adaptation. Functional adaptation requires molecular adaptation, which is partially provided by miRNA-mediated post-transcriptional regulation. miR-206 is a muscle-specific miRNA enriched in slow muscles. We investigated whether miR-206 drives the slow muscle phenotype or is merely an outcome. We found that miR-206 expression increases in both physiological (including female sex and endurance exercise) and pathological conditions (muscular dystrophy and adrenergic agonism) that promote a slow phenotype. Consistent with that observation, the slow soleus muscle of male miR-206-knockout mice displays a faster phenotype than wild-type mice. Moreover, left ventricles of male miR-206 knockout mice have a faster myosin profile, accompanied by dilation and systolic dysfunction. Thus, miR-206 appears to be necessary to enforce a slow skeletal and cardiac muscle phenotype and to play a key role in muscle sexual dimorphisms.

Topics & Concepts

BiologyPhenotypeGeneticsEvolutionary biologyGeneMuscle Physiology and DisordersMicroRNA in disease regulationCircular RNAs in diseases