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Article Dans Une Revue Nature Cell Biology Année : 2017

Tubulin acetylation protects long-lived microtubules against mechanical ageing.

Résumé

Long-lived microtubules endow the eukaryotic cell with long-range transport abilities. While long-lived microtubules are acetylated on Lys40 of α-tubulin (αK40), acetylation takes place after stabilization and does not protect against depolymerization. Instead, αK40 acetylation has been proposed to mechanically stabilize microtubules. Yet how modification of αK40, a residue exposed to the microtubule lumen and inaccessible to microtubule-associated proteins and motors, could affect microtubule mechanics remains an open question. Here we develop FRET-based assays that report on the lateral interactions between protofilaments and find that αK40 acetylation directly weakens inter-protofilament interactions. Congruently, αK40 acetylation affects two processes largely governed by inter-protofilament interactions, reducing the nucleation frequency and accelerating the shrinkage rate. Most relevant to the biological function of acetylation, microfluidics manipulations demonstrate that αK40 acetylation enhances flexibility and confers resilience against repeated mechanical stresses. Thus, unlike deacetylated microtubules that accumulate damage when subjected to repeated stresses, long-lived microtubules are protected from mechanical ageing through their acquisition of αK40 acetylation. In contrast to other tubulin post-translational modifications that act through microtubule-associated proteins, motors and severing enzymes, intraluminal acetylation directly tunes the compliance and resilience of microtubules.

Dates et versions

hal-01515539 , version 1 (27-04-2017)

Identifiants

Citer

Didier Portran, Laura Schaedel, Zhenjie Xu, Manuel Théry, Maxence V Nachury. Tubulin acetylation protects long-lived microtubules against mechanical ageing.. Nature Cell Biology, 2017, 19 (4), pp.391-398. ⟨10.1038/ncb3481⟩. ⟨hal-01515539⟩
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