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A mechanosensing mechanism controls plasma membrane shape homeostasis at the nanoscale.

eLife (2023-09-25)
Xarxa Quiroga, Nikhil Walani, Andrea Disanza, Albert Chavero, Alexandra Mittens, Francesc Tebar, Xavier Trepat, Robert G Parton, María Isabel Geli, Giorgio Scita, Marino Arroyo, Anabel-Lise Le Roux, Pere Roca-Cusachs
RÉSUMÉ

As cells migrate and experience forces from their surroundings, they constantly undergo mechanical deformations which reshape their plasma membrane (PM). To maintain homeostasis, cells need to detect and restore such changes, not only in terms of overall PM area and tension as previously described, but also in terms of local, nanoscale topography. Here, we describe a novel phenomenon, by which cells sense and restore mechanically induced PM nanoscale deformations. We show that cell stretch and subsequent compression reshape the PM in a way that generates local membrane evaginations in the 100 nm scale. These evaginations are recognized by I-BAR proteins, which triggers a burst of actin polymerization mediated by Rac1 and Arp2/3. The actin polymerization burst subsequently re-flattens the evagination, completing the mechanochemical feedback loop. Our results demonstrate a new mechanosensing mechanism for PM shape homeostasis, with potential applicability in different physiological scenarios.

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Sigma-Aldrich
Arp2/3 Complex Inhibitor I, CK-666, Arp2/3 Complex Inhibitor I, CK-666, CAS 442633-00-3, is a cell-permeable selective inhibitor of actin assembly mediated by actin-related protein Arp2/3 complex (IC50 = 4 uM in human).
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Wiskostatin
Sigma-Aldrich
Anti-BAIAP2 antibody produced in rabbit, affinity isolated antibody, buffered aqueous glycerol solution