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CAMSAPs and nucleation-promoting factors control microtubule release from γ-TuRC.

Dipti RaiYinlong SongShasha HuaKelly SteckerJooske L MonsterVictor C YinRiccardo StucchiYixin XuYaqian ZhangFangrui ChenEugene A KatrukhaA F Maarten AltelaarAlbert J R HeckMichal WieczorekKai JiangAnna Akhmanova
Published in: Nature cell biology (2024)
γ-Tubulin ring complex (γ-TuRC) is the major microtubule-nucleating factor. After nucleation, microtubules can be released from γ-TuRC and stabilized by other proteins, such as CAMSAPs, but the biochemical cross-talk between minus-end regulation pathways is poorly understood. Here we reconstituted this process in vitro using purified components. We found that all CAMSAPs could bind to the minus ends of γ-TuRC-attached microtubules. CAMSAP2 and CAMSAP3, which decorate and stabilize growing minus ends but not the minus-end tracking protein CAMSAP1, induced microtubule release from γ-TuRC. CDK5RAP2, a γ-TuRC-interactor, and CLASP2, a regulator of microtubule growth, strongly stimulated γ-TuRC-dependent microtubule nucleation, but only CDK5RAP2 suppressed CAMSAP binding to γ-TuRC-anchored minus ends and their release. CDK5RAP2 also improved selectivity of γ-tubulin-containing complexes for 13- rather than 14-protofilament microtubules in microtubule-capping assays. Knockout and overexpression experiments in cells showed that CDK5RAP2 inhibits the formation of CAMSAP2-bound microtubules detached from the microtubule-organizing centre. We conclude that CAMSAPs can release newly nucleated microtubules from γ-TuRC, whereas nucleation-promoting factors can differentially regulate this process.
Keyphrases
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  • cell proliferation
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  • oxidative stress
  • cell cycle arrest
  • cell death
  • small molecule
  • drug induced
  • structural basis