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

Huang, Hongbiao; Feng, Jie; Famulski, Jakub K.; Rattner, J. B.; Liu, Song‐Tao; Kao, Gary D.; Muschel, Ruth J.; Chan, Gordon K.; Yen, Tim J.

doi:10.1083/jcb.200701122

Cited by 128 publications

(179 citation statements)

References 38 publications

(98 reference statements)

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“…Our results show that Sgo is a protector of cohesin around centromeres in chromosomes assembled in these extracts, as we see a perfect correlation between increased distance between sister centromeres and decreased cohesin staining in the absence of Sgo or its targeting kinase Bub1. This is important because it corroborates the previously proposed role of Sgo as a protector of centromeric cohesin from the prophase dissociation pathway in a "clean" system (Xenopus extracts) without interference of the spindle assembly checkpoint in which Sgo also participates (Indjeian et al Huang et al 2007). In contrast, the role of Sgo as a protector of cohesin along chromosome arms, proposed for human cells, seems not to be relevant in this system (Nakajima et al 2007).…”

Section: Discussionsupporting

confidence: 86%

“…In Saccharomyces cerevisiae, an organism in which there is no prophase release of cohesin, Sgo1 is not required for cohesion but for sensing tension between sister chromatids (Indjeian et al 2005). Human Sgo2 also acts as a sensor of tension (Huang et al 2007;Lee et al 2008), whereas a number of studies in HeLa cells show that knock down of Sgo1 by small interfering RNA (siRNA) leads to premature separation of the sister chromatids and prometaphase arrest McGuinness et al 2005). Therefore, in these transformed human cells, Sgo1 appears to protect a small population of cohesin both at arms and at centromeres from the prophase pathway (Nakajima et al 2007).…”

Section: Introductionmentioning

confidence: 99%

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Shugoshin regulates cohesion by driving relocalization of PP2A in Xenopus extracts

Rivera

Losada

2008

Chromosoma

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Section: Discussionsupporting

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Shugoshin regulates cohesion by driving relocalization of PP2A in Xenopus extracts

Rivera

Losada

2008

Chromosoma

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“…Finally, in mammalian cells Sgo2 also seems to promote MCAK localization at the centromere and cells depleted of Sgo2 exhibit erroneous kinetochore-microtubule attachments and high rates of chromosome mis-segregation in anaphase. 68 The idea that Sgo2 might contribute to correction of kinetochore mis-attachments by promoting INCENP localization at the centromere is particularly interesting in light of another recent study suggesting that INCENP might actually function as the 'sensor' of the system. 71 Sandall and coworkers found that, in budding yeast, the Survivin/INCENP protein complex is responsible for mediating the linkage between centromeres and microtubules in an in vitro approach that makes use of the sequence-specific budding yeast centromere.…”

Section: How Does Aurora B Detect Kinetochore-microtubule Mis-attachmmentioning

confidence: 99%

“…Sgo2 localizes at the inner centromere of mammalian chromosomes and its local distribution changes as chromosomes become bi-oriented and develop tension across the centromere. 67,68 Studies in fission yeast have also shown that Sgo2 interacts with and promotes the centromeric localization of INCENP/ Survivin. 69,70 It is less clear if the centromeric localization of Aurora kinase is also regulated by Sgo2, although it could do so indirectly via INCENP.…”

Section: How Does Aurora B Detect Kinetochore-microtubule Mis-attachmmentioning

confidence: 99%

Detection and Correction of Merotelic Kinetochore Orientation by Aurora B and its Partners

Cimini

2007

Cell Cycle

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Merotelic kinetochore orientation is a kinetochore-microtubule mis-attachment in which a single kinetochore binds microtubules to both spindle poles, rather than just one. Merotelic attachments occur frequently in early mitosis and can induce anaphase lagging chromosomes and aneuploidy if not corrected before anaphase onset. Merotelic kinetochore orientation does not interfere with chromosome alignment at the metaphase plate and does not activate the mitotic spindle checkpoint. However, a correction mechanism for merotelic attachment reduces the number of merotelic kinetochores entering anaphase, thus preventing chromosome mis-segregation. Results from many different studies support the idea that Aurora B kinase plays a critical role in this merotelic correction mechanism by phosphorylating key substrates at the kinetochore and promoting turnover of kinetochore microtubules. In addition, recent studies are starting to identify the possible 'sensors' of the system that would be able to detect the mis-attachment and communicate this to Aurora B. Here, I review these studies and discuss a model for how merotelic kinetochore orientation could be detected and corrected before anaphase onset.

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“…Antigen-affinity purified antibodies against hSMC1, SA-1, and hRAD21 were described previously (Gregson et al, 2001(Gregson et al, , 2002. Mouse monoclonal antibody (mAb) specific for CENP-E and rabbit polycloncal antibody specific for Tripin/hSgo2 were published previously (Yen et al, 1991;Huang et al, 2007). Polyclonal antibodies against Aurora A (rabbit; Novus Biologicals, Littleton, CO) and SA2 (goat; Bethyl Laboratories, Montgomery, TX) as well as mouse monoclonal antibodies specific for NuMA (Calbiochem, San Diego, CA), Polo-like kinase 1 (Plk1) (Abcam, Cambridge, MA), SUV39H1 (Millipore, Billerica, MA), CENP-A (Abcam), and ␣-tubulin, ␤-tubulin, and ␥-tubulin (Sigma-Aldrich) were used.…”

mentioning

confidence: 99%

Cohesin Associates with Spindle Poles in a Mitosis-specific Manner and Functions in Spindle Assembly in Vertebrate Cells

Kong

Ball

Sonoda

et al. 2009

MBoC

Self Cite

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Cohesin is an essential protein complex required for sister chromatid cohesion. Cohesin associates with chromosomes and establishes sister chromatid cohesion during interphase. During metaphase, a small amount of cohesin remains at the chromosome-pairing domain, mainly at the centromeres, whereas the majority of cohesin resides in the cytoplasm, where its functions remain unclear. We describe the mitosis-specific recruitment of cohesin to the spindle poles through its association with centrosomes and interaction with nuclear mitotic apparatus protein (NuMA). Overexpression of NuMA enhances cohesin accumulation at spindle poles. Although transient cohesin depletion does not lead to visible impairment of normal spindle formation, recovery from nocodazole-induced spindle disruption was significantly impaired. Importantly, selective blocking of cohesin localization to centromeres, which disrupts centromeric sister chromatid cohesion, had no effect on this spindle reassembly process, clearly separating the roles of cohesin at kinetochores and spindle poles. In vitro, chromosome-independent spindle assembly using mitotic extracts was compromised by cohesin depletion, and it was rescued by addition of cohesin that was isolated from mitotic, but not S phase, cells. The combined results identify a novel spindle-associated role for human cohesin during mitosis, in addition to its function at the centromere/kinetochore regions. INTRODUCTIONMitotic spindle formation is critical for proper chromosome congression, alignment, and segregation during cell division (Compton, 2000;Scholey et al., 2003;Kline-Smith and Walczak, 2004). Microtubules (MTs) undergo drastic changes in their dynamics and organization as the cell enters mitosis to form the bipolar spindle apparatus. As the nuclear membrane breaks down at the G2/M transition, interphase cytoskeletal MTs are destabilized, and mitotic spindle MTs nucleate from two opposing centrosomes/spindle poles with increased growth and turnover rates (Saxton et al., 1984;Zhai et al., 1996). This mitosis-specific change of microtubule behavior indicates the presence of cell cycle-specific regulators of spindles. Indeed, studies identified many important microtubule-associated proteins (MAPs) that regulate different aspects of mitotic spindle dynamics, such as the efficiency of MT nucleation and minus-end focusing at spindle poles, MT plus-and minus-end dynamics, and overall spindle stability (Kline-Smith and Walczak, 2004). However, the intricate regulatory mechanisms for spindle organization are not completely understood, and there are most likely additional factors that contribute to proper spindle regulation during mitosis.Cohesin is a conserved and essential multiprotein complex required for sister chromatid cohesion (Losada et al., 1998;Uhlmann and Nasmyth, 1998;Toth et al., 1999). Genetic studies in both yeast and metazoans revealed that inhibition of cohesin function leads to premature separation of sister chromatids, chromosome misalignment, and meloteric attachment of spindles to...

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

Cited by 128 publications

References 38 publications

Shugoshin regulates cohesion by driving relocalization of PP2A in Xenopus extracts

Shugoshin regulates cohesion by driving relocalization of PP2A in Xenopus extracts

Detection and Correction of Merotelic Kinetochore Orientation by Aurora B and its Partners

Cohesin Associates with Spindle Poles in a Mitosis-specific Manner and Functions in Spindle Assembly in Vertebrate Cells

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