Mad2定位于动粒依赖于微管附着，而非张力。

Localization of Mad2 to kinetochores depends on microtubule attachment, not tension.

作者信息

Waters J C, Chen R H, Murray A W, Salmon E D

机构信息

Biology Department, University of North Carolina, Chapel Hill, North Carolina 27599-3280, USA.

出版信息

J Cell Biol. 1998 Jun 1;141(5):1181-91. doi: 10.1083/jcb.141.5.1181.

DOI:10.1083/jcb.141.5.1181

PMID:9606210

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2137189/

Abstract

A single unattached kinetochore can delay anaphase onset in mitotic tissue culture cells (Rieder, C.L., A. Schultz, R. Cole, G. Sluder. 1994. J. Cell Biol. 127:1301-1310). Kinetochores in vertebrate cells contain multiple binding sites, and tension is generated at kinetochores after attachment to the plus ends of spindle microtubules. Checkpoint component Mad2 localizes selectively to unattached kinetochores (Chen, R.-H., J.C. Waters, E.D. Salmon, and A.W. Murray. 1996. Science. 274:242-246; Li, Y., and R. Benezra. Science. 274: 246-248) and disappears from kinetochores by late metaphase, when chromosomes are properly attached to the spindle. Here we show that Mad2 is lost from PtK1 cell kinetochores as they accumulate microtubules and re-binds previously attached kinetochores after microtubules are depolymerized with nocodazole. We also show that when kinetochore microtubules in metaphase cells are stabilized with taxol, tension at kinetochores is lost. The phosphoepitope 3f3/2, which has been shown to become dephosphorylated in response to tension at the kinetochore (Nicklas, R.B., S.C. Ward, and G.J. Gorbsky. 1995. J. Cell Biol. 130:929-939), is phosphorylated on all 22 kinetochores after tension is reduced with taxol. In contrast, Mad2 only localized to an average of 2.6 out of the 22 kinetochores in taxol-treated PtK1 cells. Therefore, loss of tension at kinetochores occupied by microtubules is insufficient to induce Mad2 to accumulate on kinetochores, whereas unattached kinetochores consistently bind Mad2. We also found that microinjecting antibodies against Mad2 caused cells arrested with taxol to exit mitosis after approximately 12 min, while uninjected cells remained in mitosis for at least 6 h, demonstrating that Mad2 is necessary for maintenance of the taxol-induced mitotic arrest. We conclude that kinetochore microtubule attachment stops the Mad2 interactions at kinetochores which are important for inhibiting anaphase onset.

摘要

单个未附着的动粒可延迟有丝分裂组织培养细胞中的后期起始（里德，C.L.，A. 舒尔茨，R. 科尔，G. 斯卢德。1994年。《细胞生物学杂志》127:1301 - 1310）。脊椎动物细胞中的动粒含有多个结合位点，在附着于纺锤体微管的正端后，动粒处会产生张力。检查点蛋白Mad2选择性地定位于未附着的动粒（陈，R.-H.，J.C. 沃特斯，E.D. 萨尔蒙，以及A.W. 默里。1996年。《科学》。274:242 - 246；李，Y.，和R. 贝内兹拉。《科学》。274: 246 - 248），并在中期后期从动粒上消失，此时染色体已正确附着于纺锤体。在此我们表明，随着PtK1细胞的动粒积累微管，Mad2从其上丢失，而在用诺考达唑使微管解聚后，Mad2会重新结合先前附着的动粒。我们还表明，当用紫杉醇稳定中期细胞中的动粒微管时，动粒处的张力丧失。磷酸表位3f3/2已被证明会因动粒处的张力而发生去磷酸化（尼克拉斯，R.B.，S.C. 沃德，以及G.J. 戈尔布斯基。1995年。《细胞生物学杂志》130:929 - 939），在用紫杉醇降低张力后，所有22个动粒上的3f3/2都会发生磷酸化。相比之下，在经紫杉醇处理的PtK1细胞中，Mad2仅平均定位于22个动粒中的2.6个。因此，微管占据的动粒处张力的丧失不足以诱导Mad2在动粒上积累，而未附着的动粒始终结合Mad2。我们还发现，显微注射抗Mad2抗体可使因紫杉醇而停滞的细胞在大约12分钟后退出有丝分裂，而未注射的细胞则在有丝分裂中至少停留6小时，这表明Mad2对于维持紫杉醇诱导的有丝分裂停滞是必需的。我们得出结论，动粒微管附着会阻止动粒处对抑制后期起始很重要的Mad2相互作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b299/2137189/304461996f17/JCB9802028.f1.jpg

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Mad2定位于动粒依赖于微管附着，而非张力。

Localization of Mad2 to kinetochores depends on microtubule attachment, not tension.

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