Conserved C-terminal Domains of MCenp-F (LEK1) Regulate Subcellular Localization and Mitotic Checkpoint Delay

Overview

Journal Exp Cell Res

Specialty Cell Biology

Date 2007 May 15

PMID 17498689

Citations 9

Authors

Heather J Evans

Laura Edwards

Richard L Goodwin

Affiliations

Soon will be listed here.

Abstract

Centromeric Protein-F (Cenp-F) family members have been identified in organisms from yeast to human. Cenp-F proteins are a component of kinetochores during mitosis, bind to the Rb family of tumor suppressors, and have regulatory effects on the cell cycle and differentiation; however, their role in these processes has not been resolved. Here, we provide evidence that the role of murine Cenp-F (mCenp-F, also known as LEK1) remains largely conserved and that the domains within the C-terminus collectively function to regulate the G2/M cell cycle checkpoint. Overexpression of the C-terminal domain of mCenp-F decreases DNA synthesis. Analyses of deletion mutants of mCenp-F reveal that the complete C-terminal domain is required to delay cell cycle progression at G2/M. Signal transduction pathway profiling experiments indicate that the mCenp-F-mediated cell cycle delay does not involve transcriptional activity of key cell cycle regulators such as Rb, E2F, p53, or Myc. However, endogenous mCenp-F colocalizes with pRb and p107, which demonstrates in vivo protein-protein interaction during cell division. These observations suggest that the domains of the C-terminus of mCenp-F have a conserved function in control of mitotic progression through protein-protein interaction with pocket proteins, thus providing a direct connection between cell cycle regulation and mitotic progression.

Citing Articles

Miro-dependent mitochondrial pool of CENP-F and its farnesylated C-terminal domain are dispensable for normal development in mice.

Peterka M, Kornmann B PLoS Genet. 2019; 15(3):e1008050.

PMID: 30856164 PMC: 6428352. DOI: 10.1371/journal.pgen.1008050.

Regulation of Cenp-F localization to nuclear pores and kinetochores.

Berto A, Doye V Cell Cycle. 2018; 17(17):2122-2133.

PMID: 30198378 PMC: 6260214. DOI: 10.1080/15384101.2018.1520569.

Disentangling the molecular determinants for Cenp-F localization to nuclear pores and kinetochores.

Berto A, Yu J, Morchoisne-Bolhy S, Bertipaglia C, Vallee R, Dumont J EMBO Rep. 2018; 19(5).

PMID: 29632243 PMC: 5934770. DOI: 10.15252/embr.201744742.

Centromere protein F includes two sites that couple efficiently to depolymerizing microtubules.

Volkov V, Grissom P, Arzhanik V, Zaytsev A, Renganathan K, McClure-Begley T J Cell Biol. 2015; 209(6):813-28.

PMID: 26101217 PMC: 4477864. DOI: 10.1083/jcb.201408083.

Cardiac-specific deletion of the microtubule-binding protein CENP-F causes dilated cardiomyopathy.

Dees E, Miller P, Moynihan K, Pooley R, Hunt R, Galindo C Dis Model Mech. 2012; 5(4):468-80.

PMID: 22563055 PMC: 3380710. DOI: 10.1242/dmm.008680.

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