The inner centromere-shugoshin network prevents chromosomal instability

Tanno Yuji; Susumu Hiroaki; Kawamura Miyuki; Sugimura Haruhiko; Honda Takashi; Watanabe Yoshinori

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The inner centromere-shugoshin network prevents chromosomal instability

机译：内着丝粒-Shugoshin网络可防止染色体不稳定

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Chromosomal instability (CIN) is a major trait of cancer cells and a potent driver of tumor progression. However, the molecular mechanisms underlying CIN still remain elusive. We found that a number of CIN+ cell lines have impairments in the integrity of the conserved inner centromere-shugoshin (ICS) network, which coordinates sister chromatid cohesion and kinetochore-microtubule attachment. These defects are caused mostly by the loss of histone H3 lysine 9 trimethylation at centromeres and sometimes by a reduction in chromatin-associated cohesin; both pathways separately sustain centromeric shugoshin stability. Artificial restoration of the ICS network suppresses chromosome segregation errors in a wide range of CIN+ cells, including RB- and BRCA1-deficient cells. Thus, dysfunction of the ICS network might be a key mechanism underlying CIN in human tumorigenesis.

机译：染色体不稳定性（CIN）是癌细胞的主要特征，并且是肿瘤进展的有力驱动器。但是，CIN的分子机制仍然难以捉摸。我们发现，许多CIN +细胞系在保守的内部着丝粒-守护甜心（ICS）网络的完整性方面存在损伤，该网络协调姐妹染色单体的内聚和动粒-微管的附着。这些缺陷主要是由于着丝粒处组蛋白H3赖氨酸9三甲基化的丧失，有时是由于染色质相关黏附素的减少所致。两种途径分别维持着着丝粒的守护甜心素的稳定性。 ICS网络的人工恢复可抑制各种CIN +细胞（包括RB和BRCA1缺陷细胞）中的染色体分离错误。因此，ICS网络功能障碍可能是人类肿瘤发生中CIN潜在的关键机制。

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《Science》 |2015年第6253期|1237-1240|共4页
作者
Tanno Yuji; Susumu Hiroaki; Kawamura Miyuki; Sugimura Haruhiko; Honda Takashi; Watanabe Yoshinori;
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作者单位

Univ Tokyo, Inst Mol & Cellular Biosci, Lab Chromosome Dynam, Tokyo 1130032, Japan;

Univ Tokyo, Inst Mol & Cellular Biosci, Lab Chromosome Dynam, Tokyo 1130032, Japan|Univ Tokyo, Grad Sch Sci, Dept Biol Sci, Tokyo 1130032, Japan;

Univ Tokyo, Inst Mol & Cellular Biosci, Lab Chromosome Dynam, Tokyo 1130032, Japan|Univ Tokyo, Grad Sch Sci, Dept Biol Sci, Tokyo 1130032, Japan;

Hamamatsu Univ Sch Med, Dept Pathol 1, Hamamatsu, Shizuoka 4313192, Japan;

Univ Tokyo, Inst Mol & Cellular Biosci, Lab Chromosome Dynam, Tokyo 1130032, Japan;

Univ Tokyo, Inst Mol & Cellular Biosci, Lab Chromosome Dynam, Tokyo 1130032, Japan|Univ Tokyo, Grad Sch Sci, Dept Biol Sci, Tokyo 1130032, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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入库时间 2022-08-18 02:52:03

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1. The inner centromere-shugoshin network prevents chromosomal instability (Retraction of Vol 349, Pg 1237, 2015) [J] . Tanno Yuji, Susumu Hiroaki, Kawamura Miyuki, Science . 2017,第6355期

机译：内着丝粒-Shugoshin网络可防止染色体不稳定（撤回第349卷，第1237页，2015年）
2. The CDK regulators Cdh1 and Sic1 promote efficient usage of DNA replication origins to prevent chromosomal instability at a chromosome arm [J] . Ayuda-Duran Pilar, Devesa Fernando, Gomes Fabia, Nucleic Acids Research . 2014,第11期

机译：CDK调节剂CDH1和SIC1促进了DNA复制起源的有效使用，以防止染色体臂上的染色体不稳定性
3. The CDK regulators Cdh1 and Sic1 promote efficient usage of DNA replication origins to prevent chromosomal instability at a chromosome arm [J] . Arturo Calzada, Carmelo ávila-Zarza, Fábia Gomes, Nucleic acids research . 2014,第11期

机译：CDK调节剂Cdh1和Sic1促进DNA复制起点的有效利用，以防止染色体臂处的染色体不稳定
4. Network management and control mechanisms to prevent maliciously induced network instability [C] . Skoog R.A., Jasinski N., Shayman M.A., Computer-Based Medical Systems, 2005. . 2005

机译：网络管理和控制机制可防止恶意诱发的网络不稳定
5. Interactions with topoisomerase IIalpha enhance the unwinding activity of the BLM helicase on recombination substrates and are necessary for preventing chromosome breakage. [D] . Russell, Beatriz. 2010

机译：与拓扑异构酶IIalpha的相互作用增强了BLM解旋酶在重组底物上的解旋活性，对于防止染色体断裂是必需的。
6. Lysosomal degradation ensures accurate chromosomal segregation to prevent chromosomal instability [O] . Eugènia Almacellas, Joffrey Pelletier, Charles Day, 2021

机译：溶酶体降解确保准确的染色体隔离以防止染色体不稳定性
7. Lamin B2 prevents chromosome instability by ensuring proper mitotic chromosome segregation [O] . T Kuga, H Nie, T Kazami, 2014

机译：Lamin B2通过确保适当的有丝分裂染色体隔离来防止染色体不稳定性
8. Interpretation of heavy ion effects. - Comparison of chromosomal damage induced by low and high LET radiation. - Calculation of RBE for endpoints in vitro and in vivo based on charged particle track structure. - Delayed chromosomal instability induced by high and low LET radiation. - Influence of radiation quality on strand breaks in viral and cellular DNA [R] . Kraft, G. , Scholz, M. , Nasonova, E. , 1995

机译：解释重离子效应。 - 低LET和高LET辐射诱导的染色体损伤的比较。 - 基于带电粒子轨道结构计算体外和体内终点的RBE。 - 由高和低LET辐射引起的延迟染色体不稳定性。 - 辐射质量对病毒和细胞DNa中链断裂的影响

The inner centromere-shugoshin network prevents chromosomal instability

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