Author
Listed:
- Chao-Chieh Lin
(Duke University School of Medicine)
- Mayumi Kitagawa
(Duke-NUS Medical School)
- Xiaohu Tang
(Michigan Technological University)
- Ming-Hsin Hou
(National Yang-Ming University)
- Jianli Wu
(Duke University School of Medicine)
- Dan Chen Qu
(Duke University School of Medicine)
- Vinayaka Srinivas
(Duke-NUS Medical School)
- Xiaojing Liu
(Duke University School of Medicine)
- J. Will Thompson
(Duke University School of Medicine
Duke University)
- Bernard Mathey-Prevot
(Duke University School of Medicine
Duke University)
- Tso-Pang Yao
(Duke University School of Medicine)
- Sang Hyun Lee
(Duke-NUS Medical School)
- Jen-Tsan Chi
(Duke University School of Medicine)
Abstract
The temporal activation of kinases and timely ubiquitin-mediated degradation is central to faithful mitosis. Here we present evidence that acetylation controlled by Coenzyme A synthase (COASY) and acetyltransferase CBP constitutes a novel mechanism that ensures faithful mitosis. We found that COASY knockdown triggers prolonged mitosis and multinucleation. Acetylome analysis reveals that COASY inactivation leads to hyper-acetylation of proteins associated with mitosis, including CBP and an Aurora A kinase activator, TPX2. During early mitosis, a transient CBP-mediated TPX2 acetylation is associated with TPX2 accumulation and Aurora A activation. The recruitment of COASY inhibits CBP-mediated TPX2 acetylation, promoting TPX2 degradation for mitotic exit. Consistently, we detected a stage-specific COASY–CBP–TPX2 association during mitosis. Remarkably, pharmacological and genetic inactivation of CBP effectively rescued the mitotic defects caused by COASY knockdown. Together, our findings uncover a novel mitotic regulation wherein COASY and CBP coordinate an acetylation network to enforce productive mitosis.
Suggested Citation
Chao-Chieh Lin & Mayumi Kitagawa & Xiaohu Tang & Ming-Hsin Hou & Jianli Wu & Dan Chen Qu & Vinayaka Srinivas & Xiaojing Liu & J. Will Thompson & Bernard Mathey-Prevot & Tso-Pang Yao & Sang Hyun Lee & , 2018.
"CoA synthase regulates mitotic fidelity via CBP-mediated acetylation,"
Nature Communications, Nature, vol. 9(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-03422-6
DOI: 10.1038/s41467-018-03422-6
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