Cenp-F links kinetochores to Ndel1/Nde1/Lis1/Dynein microtubule motor complexes

Cenp-F is a nuclear matrix component that localizes to kinetochores during mitosis and is then rapidly degraded after mitosis [1]. Unusually, both the localization and degradation of Cenp-F require it to be farnesylated [2]. Five studies recently demonstrated that Cenp-F is required for kinetochore-microtubule interactions and spindle checkpoint function [3-7]; however, the underlying molecular mechanisms have yet to be defined. Here, we show that Cenp-F interacts with Ndel1 and Nde1, two human NudE-related proteins implicated in regulating Lis1/Dynein motor complexes (reviewed in [8]). We show that Ndel1, Ndel, and Lis1 localize to kinetochores in a Cenp-F-dependent manner. In addition, Nde1, but not Ndel1, is required for kinetochore localization of Dynein. Accordingly, suppression of Ndel inhibits metaphase chromosome alignment and activates the spindle checkpoint. By contrast, inhibition of Ndel1 results in malorientations that are not detected by the spindle checkpoint; Ndel1-deficient cells consequently enter anaphase in a timely manner but lagging chromosomes then manifest. A major function of Cenp-F, therefore, is to link the Ndel1/Nde1/Lis1/Dynein pathway to kinetochores. Furthermore, our data demonstrate that Ndell and Ndel play distinct roles to ensure chromosome alignment and segregation.