4.2 Review

Feisty filaments: actin dynamics in the red blood cell membrane skeleton

Journal

CURRENT OPINION IN HEMATOLOGY
Volume 23, Issue 3, Pages 206-214

Publisher

LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1097/MOH.0000000000000227

Keywords

actin polymerization; erythrocyte; spectrin; tropomodulin-1; tropomyosin

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Funding

  1. National Institutes of Health [K99-AR066534, R01-HL083464]

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Purpose of review This article discusses recent advances and unsolved questions in our understanding of actin filament organization and dynamics in the red blood cell (RBC) membrane skeleton, a two-dimensional quasi-hexagonal network consisting of (alpha(1)beta(1))(2)-spectrin tetramers interconnecting short actin filament-based junctional complexes. Recent findings In contrast to the long-held view that RBC actin filaments are static structures that do not exchange subunits with the cytosol, RBC actin filaments are dynamic structures that undergo subunit exchange and turnover, as evidenced by monomer incorporation experiments with rhodamine-actin and filament disruption experiments with actin-targeting drugs. The malaria-causing parasite, Plasmodium falciparum, co-opts RBC actin dynamics to construct aberrantly branched actin filament networks. Even though RBC actin filaments are dynamic, RBC actin filament lengths are highly uniform (similar to 37nm). RBC actin filament lengths are thought to be stabilized by the capping proteins, tropomodulin-1 and alpha beta-adducin, as well as the side-binding protein tropomyosin, present in an equimolar combination of two isoforms, TM5b (Tpm1.9) and TM5NM1 (Tpm3.1). Summary New evidence indicates that RBC actin filaments are not simply passive cytolinkers, but rather dynamic structures whose assembly and disassembly play important roles in RBC membrane function.

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