Abstract
The spindle assembly checkpoint (SAC) is a quality control device to ensure accurate chromosome attachment to spindle microtubule for equal segregation of sister chromatid. Aurora B is essential for SAC function by sensing chromosome bi-orientation via spatial regulation of kinetochore substrates. However, it has remained elusive as to how Aurora B couples kinetochore-microtubule attachment to SAC signaling. Here, we show that Hec1 interacts with Mps1 and specifies its kinetochore localization via its calponin homology (CH) domain and N-terminal 80 amino acids. Interestingly, phosphorylation of the Hec1 by Aurora B weakens its interaction with microtubules but promotes Hec1 binding to Mps1. Significantly, the temporal regulation of Hec1 phosphorylation orchestrates kinetochore-microtubule attachment and Mps1 loading to the kinetochore. Persistent expression of phosphomimetic Hec1 mutant induces a hyperactivation of SAC, suggesting that phosphorylation-elicited Hec1 conformational change is used as a switch to orchestrate SAC activation to concurrent destabilization of aberrant kinetochore attachment. Taken together, these results define a novel role for Aurora B-Hec1-Mps1 signaling axis in governing accurate chromosome segregation in mitosis.
Highlights
Hec1 is a core component of outer kinetochore essential for chromosome segregation in mitosis
This complex is an essential kinetochore core component highly conserved across species, with a crucial role in kinetochore assembly and proper chromosome segregation during mitosis (20 –22)
We have characterized that the phosphorylation of Hec1 by Aurora B specifies Mps1 signaling at the kinetochore
Summary
Hec is a core component of outer kinetochore essential for chromosome segregation in mitosis. Persistent expression of phosphomimetic Hec mutant induces a hyperactivation of SAC, suggesting that phosphorylation-elicited Hec conformational change is used as a switch to orchestrate SAC activation to concurrent destabilization of aberrant kinetochore attachment. Taken together, these results define a novel role for Aurora B-Hec1-Mps signaling axis in governing accurate chromosome segregation in mitosis. The key molecular target of SAC is Cdc, an anaphase-promoting complex/cyclosome activator [3]. Mad3/BubR1, Bub, and Cdc form the mitotic checkpoint complex, which inhibits the ubiquitin E3 ligase activity of anaphase-promoting complex/cyclosome unless the SAC is satisfied [4, 5].
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