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Septin cooperation with tubulin polyglutamylation contributes to cancer cell adaptation to taxanes.


ABSTRACT: The mechanisms of cancer cell adaptation to the anti-microtubule agents of the taxane family are multifaceted and still poorly understood. Here, in a model of breast cancer cells which display amplified microtubule dynamics to resist Taxol®, we provide evidence that septin filaments containing high levels of SEPT9_i1 bind to microtubules in a way that requires tubulin long chain polyglutamylation. Reciprocally, septin filaments provide a scaffold for elongating and trimming polyglutamylation enzymes to finely tune the glutamate side-chain length on microtubules to an optimal level. We also demonstrate that tubulin retyrosination and/or a high level of tyrosinated tubulin is crucial to allow the interplay between septins and polyglutamylation on microtubules and that together, these modifications result in an enhanced CLIP-170 and MCAK recruitment to microtubules. Finally, the inhibition of tubulin retyrosination, septins, tubulin long chain polyglutamylation or of both CLIP-170 and MCAK allows the restoration of cell sensitivity to taxanes, providing evidence for a new integrated mechanism of resistance.

SUBMITTER: Froidevaux-Klipfel L 

PROVIDER: S-EPMC4742162 | biostudies-literature | 2015 Nov

REPOSITORIES: biostudies-literature

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Septin cooperation with tubulin polyglutamylation contributes to cancer cell adaptation to taxanes.

Froidevaux-Klipfel Laurence L   Targa Benjamin B   Cantaloube Isabelle I   Ahmed-Zaïd Hayat H   Poüs Christian C   Baillet Anita A  

Oncotarget 20151101 34


The mechanisms of cancer cell adaptation to the anti-microtubule agents of the taxane family are multifaceted and still poorly understood. Here, in a model of breast cancer cells which display amplified microtubule dynamics to resist Taxol®, we provide evidence that septin filaments containing high levels of SEPT9_i1 bind to microtubules in a way that requires tubulin long chain polyglutamylation. Reciprocally, septin filaments provide a scaffold for elongating and trimming polyglutamylation enz  ...[more]

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