摘要
The chromokinesin Kif4A controls proper chromosome condensation, congression/alignment, and cytokinesis to ensure faithful genetic inheritance. Here, we report that Cdk phosphorylation of human Kif4A at T1161 licenses Kif4A chromosomal localization, which, in turn, controls Kif4A early mitotic function. Phosphorylated Kif4A (Kif4A^WT) or Cdk phospho-mimetic Kif4A mutant (Kif4A^TE) associated with chromosomes and condensin I (non-SMC subunit CAP-G and core subunit SMC2) to regulate chromosome condensation, spindle morphology, and chromosome congression/alignment in early mitosis. In contrast, Cdk non-phosphorylatable Kif4A mutant (Kif4A^TA) could neither localize on chromosomes nor associate with CAP-G and SMC2. Furthermore, Kif4A^TA could not rescue defective chromosome condensation, spindle morphology, or chromosome congression/alignment in cells depleted of endogenous Kif4A, which activated a mitotic checkpoint and delayed early mitotic progression. However, targeting Kif4A^TA to chromosomes by fusion of Kif4A^TA with Histone H1 resulted in restoration of chromosome and spindle functions of Kif4A, similar to Kif4A^WT and Kif4A^TE, in cells depleted of endogenous Kif4A. Thus, our results demonstrate that Cdk phosphorylation-licensed chromosomal localization of Kif4A plays a critical role in regulating early mitotic functions of Kif4A that are important for early mitotic progression.
基金
This work was supported by CAMS Innovation Fund for Medical Sciences (CIFMS) (2016-12M-1-001), the National Natural Science Foundation of China (31171299, 31271485, and 31301138), the National Basic Research Program of China (2012CB910703), and Tianjin Research Program of Application Foundation and Advanced Technology (12JC2DJC21400). C.Z. is supported by Program for New Century Excellent Talents in University in China (NCET-11-1066).
