The Ndc80 complex targets Bod1 to human mitotic kinetochores.

Katharina Schleicher,Michael Porter,Sara Ten Have,Ramasubramanian Sundaramoorthy,Jason R Swedlow,Iain M Porter

doi:10.1098/rsob.170099

Katharina Schleicher, Michael Porter + Show 4 more

Open Access

https://doi.org/10.1098/rsob.170099

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Journal: Open biology	Publication Date: Nov 1, 2017
Citations: 10	License type: cc-by

Affiliation: University of Dundee

Abstract

Regulation of protein phosphatase activity by endogenous protein inhibitors is an important mechanism to control protein phosphorylation in cells. We recently identified Biorientation defective 1 (Bod1) as a small protein inhibitor of protein phosphatase 2A containing the B56 regulatory subunit (PP2A-B56). This phosphatase controls the amount of phosphorylation of several kinetochore proteins and thus the establishment of load-bearing chromosome-spindle attachments in time for accurate separation of sister chromatids in mitosis. Like PP2A-B56, Bod1 directly localizes to mitotic kinetochores and is required for correct segregation of mitotic chromosomes. In this report, we have probed the spatio-temporal regulation of Bod1 during mitotic progression. Kinetochore localization of Bod1 increases from nuclear envelope breakdown until metaphase. Phosphorylation of Bod1 at threonine 95 (T95), which increases Bod1's binding to and inhibition of PP2A-B56, peaks in prometaphase when PP2A-B56 localization to kinetochores is highest. We demonstrate here that kinetochore targeting of Bod1 depends on the outer kinetochore protein Ndc80 and not PP2A-B56. Crucially, Bod1 depletion functionally affects Ndc80 phosphorylation at the N-terminal serine 55 (S55), as well as a number of other phosphorylation sites within the outer kinetochore, including Knl1 at serine 24 and 60 (S24, S60), and threonine T943 and T1155 (T943, T1155). Therefore, Ndc80 recruits a phosphatase inhibitor to kinetochores which directly feeds forward to regulate Ndc80, and Knl1 phosphorylation, including sites that mediate the attachment of microtubules to kinetochores.

Highlights

To preserve genome integrity, the two sister chromatids of each mitotic chromosome must be distributed between daughter cells
We show that Biorientation defective 1 (Bod1) can protect phosphorylation of a key site in the N-terminal tail of Ndc80 that is required for microtubule attachment, as well as several sites in Knl1, another outer kinetochore protein
Using a combination of proteomics, in vitro recombinant interaction studies and in vivo siRNA-mediated localization studies, we have demonstrated that the phosphatase 2A (PP2A)-B56 regulator Bod1 is recruited to kinetochores by Ndc80

Summary

Introduction

The two sister chromatids of each mitotic chromosome must be distributed between daughter cells. A multi-complex protein interface between mitotic chromosomes and the spindle apparatus called the kinetochore is responsible for both the establishment and regulation of the microtubule attachment process [3]. Structural kinetochore proteins constitute the physical link between chromosomes and spindle microtubules. They act as a signalling platform by recruiting checkpoint proteins, kinases and phosphatases. When a cell enters mitosis, kinase activity destabilizes kinetochore–microtubule interactions [4,5] to allow for dynamic kinetochore – microtubule interactions and prevention of attachment errors [6]

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