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Literature DB >> 30540249

Muscle-specific stress fibers give rise to sarcomeres in cardiomyocytes.

Aidan M Fenix¹, Abigail C Neininger¹, Nilay Taneja¹, Karren Hyde¹, Mike R Visetsouk², Ryan J Garde², Baohong Liu³, Benjamin R Nixon⁴, Annabelle E Manalo¹, Jason R Becker⁴, Scott W Crawley⁵, David M Bader¹, Matthew J Tyska¹, Qi Liu³, Jennifer H Gutzman², Dylan T Burnette¹.

Abstract

The sarcomere is the contractile unit within cardiomyocytes driving heart muscle contraction. We sought to test the mechanisms regulating actin and myosin filament assembly during sarcomere formation. Therefore, we developed an assay using human cardiomyocytes to monitor sarcomere assembly. We report a population of muscle stress fibers, similar to actin arcs in non-muscle cells, which are essential sarcomere precursors. We show sarcomeric actin filaments arise directly from muscle stress fibers. This requires formins (e.g., FHOD3), non-muscle myosin IIA and non-muscle myosin IIB. Furthermore, we show short cardiac myosin II filaments grow to form ~1.5 μm long filaments that then 'stitch' together to form the stack of filaments at the core of the sarcomere (i.e., the A-band). A-band assembly is dependent on the proper organization of actin filaments and, as such, is also dependent on FHOD3 and myosin IIB. We use this experimental paradigm to present evidence for a unifying model of sarcomere assembly.

Entities: Chemical Disease Gene Species

Keywords: actin; cardiomyocytes; cell biology; formins; human; myosin; sarcomeres

Mesh：

Substances：

Year: 2018 PMID： 30540249 PMCID： PMC6307863 DOI： 10.7554/eLife.42144

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.140

72 in total

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