Two-step phosphorylation of Ana2 by Plk4 is required for the sequential loading of Ana2 and Sas6 to initiate procentriole formation

Creators: Dzhindzhev, Nikola S.; Tzolovsky, George; Lipinszki, Zoltan; Abdelaziz, Mohammed; Debski, Janus; Dadlez, Michal; Glover, David M.

Abstract

The conserved process of centriole duplication requires Plk4 kinase to recruit and promote interactions between Sas6 and Sas5/Ana2/STIL (respective nomenclature of worms/flies/humans). Plk4-mediated phosphorylation of Ana2/STIL in its conserved STAN motif has been shown to promote its interaction with Sas6. However, STAN motif phosphorylation is not required for recruitment of Ana2 to the centriole. Here we show that in Drosophila, Ana2 loads onto the site of procentriole formation ahead of Sas6 in a process that also requires Plk4. However, whereas Plk4 is first recruited to multiple sites around the ring of zone II at the periphery of the centriole, Ana2 is recruited to a single site in telophase before Plk4 becomes finally restricted to this same single site. When we over-ride the auto-destruction of Plk4, it remains localized to multiple sites in the outer ring of the centriole and, if catalytically active, recruits Ana2 to these sites. Thus, it is the active form of Plk4 that promotes Ana2's recruitment to the centriole. We now show that Plk4 phosphorylates Ana2 at a site other than the STAN motif, which lies in a conserved region we term the ANST (ANa2-STil) motif. Mutation of this site, S38, to a non-phosphorylatable residue prevents the procentriole loading of Ana2 and blocks centriole duplication. Thus the initiation of procentriole formation requires Plk4 to first phosphorylate a single serine residue in the ANST motif to promote Ana2's recruitment and, secondly, to phosphorylate four residues in the STAN motif enabling Ana2 to recruit Sas6. We discuss these findings in light of the multiple Plk4 phosphorylation sites on Ana2.

Additional Information

© 2017 The Authors. Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited. Received: 7 November 2017. Accepted: 29 November 2017. We would like to thank Paula Coelho for her helpful discussions of the manuscript and Monica Bettencourt-Dias for her gift of anti-Plk4 antibody. We are grateful to Cancer Research UK for program grant C3/A18795 to D.M.G. which supported this work. Z.L. is supported by grants from The National Research, Development and Innovation Office (OTKA-PD115404), Ministry for National Economy of Hungary (GINOP-2.3.2-15-2016-00001 and GINOP-2.3.2-15-2016-00032) and Hungarian Academy of Sciences (Bolyai Fellowship and Lendület grant no. LP2017-7/2017). M.D. received grants from EU CEPT (POIG.02.02.00-14-024/08-00) program, the National Science Centre, Poland, MAESTRO grant no. (2014/14/A/NZ1/00306) and the Foundation for Polish Science TEAM TECH CORE FACILITY grant. Data accessibility: The datasets supporting this article have been uploaded as part of the electronic supplementary material. We declare we have no competing interests.