PURPOSE: Chromosomal instability (CIN) is believed to have an important role in the pathogenesis of urothelial cancer (UC). The aim of this study was to evaluate whether disturbances of mitotic segregation contribute to CIN in UC, if these processes have any effect on the course of disease, and how deregulation of these mechanisms affects tumor cell growth. EXPERIMENTAL DESIGN: We developed molecular cytogenetic methods to classify mitotic segregation abnormalities in a panel of UC cell lines. Mitotic instabilities were then scored in biopsies from 52 UC patients and compared with the outcome of tumor disease. Finally, UC cells were exposed in vitro to a telomerase inhibitor to assess how this affects mitotic stability and cell proliferation. RESULTS: Three distinct chromosome segregation abnormalities were identified: (a) telomere dysfunction, which triggers structural rearrangements and loss of chromosomes through anaphase bridging; (b) sister chromatid nondisjunction, which generates discrete chromosomal copy number variations; and (c) supernumerary centrosomes, which cause dramatic shifts in chromosome copy number through multipolar cell division. Chromosome segregation errors were already present in preinvasive tumors and a high rate mitotic instability was an independent predictor of poor survival. However, induction of even higher levels of the same segregation abnormalities in UC cells by telomerase inhibition in vitro led to reduced tumor cell proliferation and clonogenic survival. CONCLUSION: Several distinct chromosome segregation errors contribute to CIN in UC, and the rate of such mitotic errors has a significant effect on the clinical course. Efficient tumor cell proliferation may depend on the tight endogenous control of these processes.
PURPOSE: Chromosomal instability (CIN) is believed to have an important role in the pathogenesis of urothelial cancer (UC). The aim of this study was to evaluate whether disturbances of mitotic segregation contribute to CIN in UC, if these processes have any effect on the course of disease, and how deregulation of these mechanisms affects tumor cell growth. EXPERIMENTAL DESIGN: We developed molecular cytogenetic methods to classify mitotic segregation abnormalities in a panel of UC cell lines. Mitotic instabilities were then scored in biopsies from 52 UC patients and compared with the outcome of tumor disease. Finally, UC cells were exposed in vitro to a telomerase inhibitor to assess how this affects mitotic stability and cell proliferation. RESULTS: Three distinct chromosome segregation abnormalities were identified: (a) telomere dysfunction, which triggers structural rearrangements and loss of chromosomes through anaphase bridging; (b) sister chromatid nondisjunction, which generates discrete chromosomal copy number variations; and (c) supernumerary centrosomes, which cause dramatic shifts in chromosome copy number through multipolar cell division. Chromosome segregation errors were already present in preinvasive tumors and a high rate mitotic instability was an independent predictor of poor survival. However, induction of even higher levels of the same segregation abnormalities in UC cells by telomerase inhibition in vitro led to reduced tumor cell proliferation and clonogenic survival. CONCLUSION: Several distinct chromosome segregation errors contribute to CIN in UC, and the rate of such mitotic errors has a significant effect on the clinical course. Efficient tumor cell proliferation may depend on the tight endogenous control of these processes.
Authors: Carolina Salinas-Souza; Indhira Dias Oliveira; Renato de Oliveira; Maria Teresa de Seixas Alves; Antonio Sergio Petrilli; Silvia Regina Caminada Toledo Journal: Cytotechnology Date: 2012-07-26 Impact factor: 2.058
Authors: Hee-Sheung Lee; Mar Carmena; Mikhail Liskovykh; Emma Peat; Jung-Hyun Kim; Mitsuo Oshimura; Hiroshi Masumoto; Marie-Paule Teulade-Fichou; Yves Pommier; William C Earnshaw; Vladimir Larionov; Natalay Kouprina Journal: Cancer Res Date: 2018-08-30 Impact factor: 12.701
Authors: John R Lamb; Chunsheng Zhang; Tao Xie; Kai Wang; Bin Zhang; Ke Hao; Eugene Chudin; Hunter B Fraser; Joshua Millstein; Mark Ferguson; Christine Suver; Irena Ivanovska; Martin Scott; Ulrike Philippar; Dimple Bansal; Zhan Zhang; Julja Burchard; Ryan Smith; Danielle Greenawalt; Michele Cleary; Jonathan Derry; Andrey Loboda; James Watters; Ronnie T P Poon; Sheung T Fan; Chun Yeung; Nikki P Y Lee; Justin Guinney; Cliona Molony; Valur Emilsson; Carolyn Buser-Doepner; Jun Zhu; Stephen Friend; Mao Mao; Peter M Shaw; Hongyue Dai; John M Luk; Eric E Schadt Journal: PLoS One Date: 2011-07-05 Impact factor: 3.240
Authors: David Gisselsson; Ulf Håkanson; Patrick Stoller; Dominik Marti; Yuesheng Jin; Anders H Rosengren; Ylva Stewénius; Fredrik Kahl; Ioannis Panagopoulos Journal: PLoS One Date: 2008-04-02 Impact factor: 3.240
Authors: Gisela Lundberg; Anders H Rosengren; Ulf Håkanson; Henrik Stewénius; Yuesheng Jin; Ylva Stewénius; Sven Påhlman; David Gisselsson Journal: PLoS One Date: 2008-08-29 Impact factor: 3.240