Plk4 and Aurora A cooperate in the initiation of acentriolar spindle assembly in mammalian oocytes
Abstract
Establishing the bipolar spindle in mammalian oocytes after their prolonged arrest is crucial for meiotic fidelity and subsequent development. In contrast to somatic cells, the first meiotic spindle assembles in the absence of centriole-containing centrosomes. Ran-GTP can promote microtubule nucleation near chromatin, but additional unidentified factors are postulated for the activity of multiple acentriolar microtubule organizing centers in the oocyte. We now demonstrate that partially overlapping, nonredundant functions of Aurora A and Plk4 kinases contribute to initiate acentriolar meiosis I spindle formation. Loss of microtubule nucleation after simultaneous chemical inhibition of both kinases can be significantly rescued by drug-resistant Aurora A alone. Drug-resistant Plk4 can enhance Aurora A–mediated rescue, and, accordingly, Plk4 can phosphorylate and potentiate the activity of Aurora A in vitro. Both kinases function distinctly from Ran, which amplifies microtubule growth. We conclude that Aurora A and Plk4 are rate-limiting factors contributing to microtubule growth as the acentriolar oocyte resumes meiosis.
Additional Information
© 2017 Bury et al. This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/). Submitted: June 15, 2016. Revision received June 27, 2017. Accepted: August 9, 2017. Published September 28, 2017. We are grateful to Andrew K. Shiau and Karen Oegema as well as to the Ludwig Small Molecule Discovery Group for valuable help and for providing the Plk4 inhibitor centrinone. We would also like to thank Anthony A. Hyman, Laurence Pelletier, and Jantina A. Manning for reagents, antibodies, and constructs; Jonathon Pines, Melina Schuh, Dean Clift, and Bedra Sharif for assistance and advice; and Kevin O'Holleran from the Cambridge Advanced Imaging Centre for help and assistance with FRAP experiments. This research has been regulated under the Animals (Scientific Procedures) Act 1986 Amendment Regulations 2012 following ethical review by the University of Cambridge Animal Welfare and Ethical Review Body. L. Bury was the recipient of a Cancer Research UK research studentship from Cambridge Cancer Centre. P.A. Coelho is supported by Cancer Research UK program grant C3/A18795 to D.M. Glover. M. Zernicka-Goetz is a Wellcome Trust Senior Fellow. P.A. Eyers acknowledges North West Cancer Research for additional support (grants CR1037 and CR1088). Author contributions: L. Bury designed and performed all experiments except those indicated below and contributed to writing the manuscript. P.A. Coelho carried out the FRAP experiments and contributed to writing the manuscript. A. Simeone carried out statistical analysis. S. Ferries, C.E. Eyers, and P.A. Eyers carried out analyses of phosphorylation of Aurora A by Plk4 in Fig. S5. M. Zernicka-Goetz co-supervised the project. D.M. Glover supervised the project and wrote the manuscript. The authors declare no competing financial interests.Attached Files
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Additional details
- PMCID
- PMC5674873
- Eprint ID
- 94575
- Resolver ID
- CaltechAUTHORS:20190408-162605585
- C3/A18795
- Cancer Research UK
- Wellcome Trust
- CR1037
- North West Cancer Research Fund
- CR1088
- North West Cancer Research Fund
- Created
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2019-04-09Created from EPrint's datestamp field
- Updated
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2021-11-16Created from EPrint's last_modified field