Literature DB >> 28428427

Microtubules acquire resistance from mechanical breakage through intralumenal acetylation.

Zhenjie Xu1,2, Laura Schaedel3, Didier Portran4, Andrea Aguilar4, Jérémie Gaillard3, M Peter Marinkovich2,5, Manuel Théry3,6, Maxence V Nachury1.   

Abstract

Eukaryotic cells rely on long-lived microtubules for intracellular transport and as compression-bearing elements. We considered that long-lived microtubules are acetylated inside their lumen and that microtubule acetylation may modify microtubule mechanics. Here, we found that tubulin acetylation is required for the mechanical stabilization of long-lived microtubules in cells. Depletion of the tubulin acetyltransferase TAT1 led to a significant increase in the frequency of microtubule breakage. Nocodazole-resistant microtubules lost upon removal of acetylation were largely restored by either pharmacological or physical removal of compressive forces. In in vitro reconstitution experiments, acetylation was sufficient to protect microtubules from mechanical breakage. Thus, acetylation increases mechanical resilience to ensure the persistence of long-lived microtubules.
Copyright © 2017, American Association for the Advancement of Science.

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Year:  2017        PMID: 28428427      PMCID: PMC5457157          DOI: 10.1126/science.aai8764

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  50 in total

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