A song of heads and tails: myosin II conformational regulation and filament dynamics shape force generation in non-muscle cells
Rafael Pérez-Díaz, Marina Garrido-Casado, Hugo Ramos-Solano, Clara Llorente-González, Vanessa C. Talayero, Miguel Vicente-Manzanares

TL;DR
This review explains how myosin II proteins regulate force generation in non-muscle cells through conformational changes and filament dynamics.
Contribution
The paper provides a comprehensive overview of how myosin II conformational regulation and filament dynamics contribute to diverse cytoplasmic structures and cellular mechanics.
Findings
Non-muscle myosin II shifts between folded and extended forms to regulate contractility.
Phosphorylation of regulatory light chains triggers conformational transitions and filament assembly.
Biochemical and mechanical signals control filament dynamics and cellular force output.
Abstract
Non-muscle cells generate force without forming sarcomeres, building instead highly dynamic, contractile filaments that assemble, remodel, and disassemble in response to mechanical and biochemical signals. This review focuses on the conformational regulation and filament dynamics of myosin II paralogs as they define diverse types of cytoplasmic structures that produce mechanical forces. Whereas muscle myosin II stably resides in sarcomeres and conserve energy by adopting a super-relaxed state in which myosin II heads interact with each other and the core of the thick filament, smooth muscle and non-muscle myosin II shift between a soluble, folded, auto-inhibited 10S species and filaments, where they adopt an extended, assembly-competent 6S form. Phosphorylation of smooth muscle and non-muscle regulatory light chain triggers the conformational transition from 10S to 6S, leading to…
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Taxonomy
TopicsCardiomyopathy and Myosin Studies · Cellular Mechanics and Interactions · Microtubule and mitosis dynamics
