Tripin/hSgo2 recruits MCAK to the inner centromere to correct defective kinetochore attachments

Tripin/hSgo2 recruits MCAK to the inner centromere to correct defective kinetochore attachments

hSgo2 (previously annotated as Tripin) was recently reported to be a new inner centromere protein that is essential for centromere cohesion (Kitajima et al., 2006). In this study, we show that hSgo2 exhibits a dynamic distribution pattern, and that its localization depends on the BUB1 and Aurora B k...

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Published in:The Journal of cell biology Vol. 177; no. 3; pp. 413 - 424
Main Authors: Huang, Haomin, Feng, Jie, Famulski, Jakub, Rattner, Jerome B, Liu, Song Tao, Kao, Gary D, Muschel, Ruth, Chan, Gordon K.T, Yen, Tim J
Format: Journal Article
Language:English
Published: United States The Rockefeller University Press 07-05-2007
Rockefeller University Press
Subjects:
Anaphase
Anaphase - physiology
Antibodies
Aurora Kinase B
Aurora Kinases
Biochemistry
Cell Cycle Proteins - metabolism
Cellular biology
Centromeres
Chromosomes
HeLa Cells
Humans
Kinases
Kinesin - metabolism
Kinetochores
Kinetochores - metabolism
Kinetochores - ultrastructure
Metaphase
Microtubules
Mitosis
Oncology
Phosphoprotein Phosphatases - metabolism
Protein Binding - physiology
Protein Kinases - metabolism
Protein Transport - physiology
Protein-Serine-Threonine Kinases - metabolism
Proteins
Small interfering RNA
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Summary:hSgo2 (previously annotated as Tripin) was recently reported to be a new inner centromere protein that is essential for centromere cohesion (Kitajima et al., 2006). In this study, we show that hSgo2 exhibits a dynamic distribution pattern, and that its localization depends on the BUB1 and Aurora B kinases. hSgo2 is concentrated at the inner centromere of unattached kinetochores, but extends toward the kinetochores that are under tension. This localization pattern is reminiscent of MCAK, which is a microtubule depolymerase that is believed to be a key component of the error correction mechanism at kinetochores. Indeed, we found that hSgo2 is essential for MCAK to localize to the centromere. Delocalization of MCAK accounts for why cells depleted of hSgo2 exhibit kinetochore attachment defects that go uncorrected, despite a transient delay in the onset of anaphase. Consequently, these cells exhibit a high frequency of lagging chromosomes when they enter anaphase. We confirmed that hSgo2 is associated with PP2A, and we propose that it contributes to the spatial regulation of MCAK activity within inner centromere and kinetochore.
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Correspondence to T.J. Yen: tj_yen@fccc.edu
Abbreviation used in this paper: ACA, anticentromere antibodies.
ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.200701122