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      Establishment of Proliferative Tetraploid Cells from Normal Human Fibroblasts

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          Abstract

          The chromosomal instability of polyploid cells, which leads to the formation of aneuploid cells, is causally related to carcinogenesis in human tissues. However, the precise link between the chromosomal instability of polyploid cells and oncogenic transformation of them remains elusive. This is partly because we lack an experimental model in which non-transformed polyploid human cells can propagate in vitro. In a previous report, we demonstrated that proliferative tetraploid cells can be established from TIG-1 human fibroblasts by treatment with the spindle poison demecolcine (DC, colcemid) for 4 days. However, this procedure could not be applied to other human fibroblast strains because the resulting cells proliferated as a mixture of diploid and tetraploid populations. Here, we report a modified procedure to establish proliferative tetraploid cells from human fibroblasts of the BJ strain with minimum contamination by diploid cells. In the modified procedure, DC-arrested mitotic cells were collected by mitotic shake-off and treated with DC for an additional 3 days. DC-treated cells restarted proliferation as tetraploid cells after several days of growth arrest and showed similar growth to that of untreated diploid cells. The MDM2 antagonist Nutlin-3a activated p53 in established tetraploid cells and suppressed their growth, indicating that these cells have functional p53. These results contradicted the hypothesis that p53 functions as the tetraploidy checkpoint and prevents proliferation of tetraploid cells. Tetraploid cells established by our method could be a valuable model for the study of chromosomal instability and the oncogenic potential of polyploid cells.

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          Tetraploid state induces p53-dependent arrest of nontransformed mammalian cells in G1.

          Olivier D. Lohez, R Margolis, F. Lacroix (2001)
          A "spindle assembly" checkpoint has been described that arrests cells in G1 following inappropriate exit from mitosis in the presence of microtubule inhibitors. We have here addressed the question of whether the resulting tetraploid state itself, rather than failure of spindle function or induction of spindle damage, acts as a checkpoint to arrest cells in G1. Dihydrocytochalasin B induces cleavage failure in cells where spindle function and chromatid segregation are both normal. Notably, we show here that nontransformed REF-52 cells arrest indefinitely in tetraploid G1 following cleavage failure. The spindle assembly checkpoint and the tetraploidization checkpoint that we describe here are likely to be equivalent. Both involve arrest in G1 with inactive cdk2 kinase, hypophosphorylated retinoblastoma protein, and elevated levels of p21(WAF1) and cyclin E. Furthermore, both require p53. We show that failure to arrest in G1 following tetraploidization rapidly results in aneuploidy. Similar tetraploid G1 arrest results have been obtained with mouse NIH3T3 and human IMR-90 cells. Thus, we propose that a general checkpoint control acts in G1 to recognize tetraploid cells and induce their arrest and thereby prevents the propagation of errors of late mitosis and the generation of aneuploidy. As such, the tetraploidy checkpoint may be a critical activity of p53 in its role of ensuring genomic integrity.
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            17p (p53) allelic losses, 4N (G2/tetraploid) populations, and progression to aneuploidy in Barrett's esophagus.

            Wilton Levine, P S Rabinovitch, M Emond (1996)
            Increased 4N (G2/tetraploid) cell populations have been postulated to be genetically unstable intermediates in the progression to many cancers, but the mechanism by which they develop and their relationship to instability have been difficult to investigate in humans in vivo. Barrett's esophagus is an excellent model system in which to investigate the order in which genetic and cell cycle abnormalities develop relative to each other during human neoplastic progression. Neoplastic progression in Barrett's esophagus is characterized by inactivation of the p53 gene, the development of increased 4N (G2/tetraploid) cell fractions, and the appearance of aneuploid cell populations. We investigated the hypothesis that patients whose biopsies have increased 4N (G2/tetraploid) cell fractions are predisposed to progression to aneuploidy and determined the relationship between inactivation of p53 and the development of 4N abnormalities in Barrett's epithelium. Our results indicate that increased 4N (G2/tetraploid) populations predict progression to aneuploidy and that the development of 4N abnormalities is interdependent with inactivation of the p53 gene in Barrett's esophagus in vivo.
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              Tetraploidy and chromosomal instability are early events during cervical carcinogenesis.

              David A Eastmond, Iris Guzmán-Guzmán, Alejandro Mohar-Betancourt (2006)
              Chromosomal instability as manifested by increases in aneuploidy and structural chromosome aberrations is believed to play a critical role in the intermediate to late stages in the development of cervical malignancies. The current study was designed to determine the role of tetraploidy in the formation of aneuploidy and ascertain the occurrence of these alterations during the earlier stages of cervical carcinogenesis. Cervical cell samples, with diagnoses ranging from Normal to high-grade lesions, (HSIL) were obtained from 143 women and were evaluated for chromosomal alterations using dual-probe fluorescence in situ hybridization. Cervical cells from a subset of the group were also evaluated for chromosomal instability in the form of micronuclei. The frequencies of cells exhibiting either tetrasomy or aneusomy for Chromosomes 3 and 17 increased significantly with disease progression and displayed distinctive patterns where aneusomy was rarely present in the absence of tetrasomy. The frequencies of micronuclei that formed through either chromosomal loss or breakage increased significantly in both the low-grade and high-grade diagnostic categories and were highly correlated with both the number of tetrasomic and aneusomic cervical cells. In addition, a unique chromosomal alteration involving a significant non-random loss of Chromosome 17 specific to near-tetraploid aneusomic cells (trisomy 17 and tetrasomy 3) was observed. We conclude that tetraploidy and chromosomal instability are related events occurring during the early stages of cervical carcinogenesis that predispose cervical cells to the formation of aneuploidy frequently involving the loss of Chromosome 17.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Front Oncol
                Journal ID (iso-abbrev): Front Oncol
                Journal ID (publisher-id): Front. Oncol.
                Title: Frontiers in Oncology
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 2234-943X
                Publication date (Electronic): 01 August 2013
                Publication date Collection: 2013
                Volume: 3
                Electronic Location Identifier: 198
                Affiliations
                [1] 1Division of Morphological Science, Biomedical Research Center, Saitama Medical University , Iruma, Saitama, Japan
                [2] 2Department of Pathology, International Medical Center, Saitama Medical University , Iruma, Saitama, Japan
                Author notes

                Edited by: Samuel F. Bakhoum, Geisel School of Medicine at Dartmouth, USA

                Reviewed by: Samuel F. Bakhoum, Geisel School of Medicine at Dartmouth, USA; Shi Qinghua, University of Science and Technology of China, China

                *Correspondence: Susumu Ohshima, Division of Morphological Science, Biomedical Research Center, Saitama Medical University, 38 Morohongo, Moroyama, Iruma, Saitama 350-0495, Japan e-mail: sohshima@ 123456saitama-med.ac.jp

                This article was submitted to Frontiers in Molecular and Cellular Oncology, a specialty of Frontiers in Oncology.

                Article
                DOI: 10.3389/fonc.2013.00198
                PMC ID: 3730083
                PubMed ID: 23914348
                SO-VID: 047d6b2b-fe06-4a24-8cc0-9ca4d2dec5be
                Copyright © Copyright © 2013 Ohshima and Seyama.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 26 April 2013
                Date accepted : 16 July 2013
                Page count
                Figures: 4, Tables: 0, Equations: 0, References: 25, Pages: 7, Words: 4509
                Categories
                Subject: Oncology
                Subject: Methods Article

                ScienceOpen disciplines: Oncology & Radiotherapy
                Keywords: polyploidy,chromosomal instability,human fibroblasts,mitotic shake-off,demecolcine
                Data availability:
                ScienceOpen disciplines: Oncology & Radiotherapy
                Keywords: polyploidy, chromosomal instability, human fibroblasts, mitotic shake-off, demecolcine

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