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dc.contributor.authorErenpreisa, Jekaterina
dc.contributor.authorIvanov, Andrei
dc.contributor.authorWheatley, Sally P
dc.contributor.authorKosmacek, Elizabeth A
dc.contributor.authorIanzini, Fiorenza
dc.contributor.authorAnisimov, Alim P
dc.contributor.authorMackey, Mike
dc.contributor.authorDavis, Paul J
dc.contributor.authorPlakhins, Gregory
dc.contributor.authorIllidge, Timothy M
dc.date.accessioned2009-05-21T16:31:24Z
dc.date.available2009-05-21T16:31:24Z
dc.date.issued2008-09
dc.identifier.citationEndopolyploidy in irradiated p53-deficient tumour cell lines: persistence of cell division activity in giant cells expressing Aurora-B kinase. 2008, 32 (9):1044-56 Cell Biol. Int.en
dc.identifier.issn1065-6995
dc.identifier.pmid18602486
dc.identifier.doi10.1016/j.cellbi.2008.06.003
dc.identifier.urihttp://hdl.handle.net/10541/68735
dc.description.abstractRecent findings including computerised live imaging suggest that polyploidy cells transiently emerging after severe genotoxic stress (and named 'endopolyploid cells') may have a role in tumour regrowth after anti-cancer treatment. Until now, mostly the factors enabling metaphase were studied in them. Here we investigate the mitotic activities and the role of Aurora-B, in view of potential depolyploidisation of these cells, because Aurora-B kinase is responsible for coordination and completion of mitosis. We observed that endopolyploid giant cells are formed via different means in irradiated p53 tumours, by: (1) division/fusion of daughter cells creating early multi-nucleated cells; (2) asynchronous division/fusion of sub-nuclei of these multi-nucleated cells; (3) a series of polyploidising mitoses reverting replicative interphase from aborted metaphase and forming giant cells with a single nucleus; (4) micronucleation of arrested metaphases enclosing genome fragments; or (5) incomplete division in the multi-polar mitoses forming late multi-nucleated giant cells. We also observed that these activities can release para-diploid cells, although infrequently. While apoptosis typically occurs after a substantial delay in these cells, we also found that approximately 2% of the endopolyploid cells evade apoptosis and senescence arrest and continue some form of mitotic activity. We describe here that catalytically active Aurora-B kinase is expressed in the nuclei of many endopolyploid cells in interphase, as well as being present at the centromeres, mitotic spindle and cleavage furrow during their attempted mitotes. The totally micronucleated giant cells (containing sub-genomic fragments in multiple micronuclei) represented only the minor fraction which failed to undergo mitosis, and Aurora-B was absent from it. These observations suggest that most endopolyploid tumour cells are not reproductively inert and that Aurora-B may contribute to the establishment of resistant tumours post-irradiation.
dc.language.isoenen
dc.subjectMitotic Catastropheen
dc.subjectTumoursen
dc.subjectAurora-B Kinaseen
dc.subjectTumour Suppressor Protein p53en
dc.subject.meshAnaphase
dc.subject.meshCell Division
dc.subject.meshCell Line, Tumor
dc.subject.meshCell Nucleus
dc.subject.meshCell Survival
dc.subject.meshChromosomes, Human
dc.subject.meshDNA, Neoplasm
dc.subject.meshGiant Cells
dc.subject.meshHumans
dc.subject.meshIn Situ Hybridization, Fluorescence
dc.subject.meshPolyploidy
dc.subject.meshProtein-Serine-Threonine Kinases
dc.subject.meshTime Factors
dc.subject.meshTubulin
dc.subject.meshTumor Suppressor Protein p53
dc.subject.meshX-Rays
dc.titleEndopolyploidy in irradiated p53-deficient tumour cell lines: persistence of cell division activity in giant cells expressing Aurora-B kinase.en
dc.typeArticleen
dc.contributor.departmentLatvia Biomedicine Research and Study Centre, Riga, Latvia. katrina@biomed.lu.lven
dc.identifier.journalCell Biology Internationalen
html.description.abstractRecent findings including computerised live imaging suggest that polyploidy cells transiently emerging after severe genotoxic stress (and named 'endopolyploid cells') may have a role in tumour regrowth after anti-cancer treatment. Until now, mostly the factors enabling metaphase were studied in them. Here we investigate the mitotic activities and the role of Aurora-B, in view of potential depolyploidisation of these cells, because Aurora-B kinase is responsible for coordination and completion of mitosis. We observed that endopolyploid giant cells are formed via different means in irradiated p53 tumours, by: (1) division/fusion of daughter cells creating early multi-nucleated cells; (2) asynchronous division/fusion of sub-nuclei of these multi-nucleated cells; (3) a series of polyploidising mitoses reverting replicative interphase from aborted metaphase and forming giant cells with a single nucleus; (4) micronucleation of arrested metaphases enclosing genome fragments; or (5) incomplete division in the multi-polar mitoses forming late multi-nucleated giant cells. We also observed that these activities can release para-diploid cells, although infrequently. While apoptosis typically occurs after a substantial delay in these cells, we also found that approximately 2% of the endopolyploid cells evade apoptosis and senescence arrest and continue some form of mitotic activity. We describe here that catalytically active Aurora-B kinase is expressed in the nuclei of many endopolyploid cells in interphase, as well as being present at the centromeres, mitotic spindle and cleavage furrow during their attempted mitotes. The totally micronucleated giant cells (containing sub-genomic fragments in multiple micronuclei) represented only the minor fraction which failed to undergo mitosis, and Aurora-B was absent from it. These observations suggest that most endopolyploid tumour cells are not reproductively inert and that Aurora-B may contribute to the establishment of resistant tumours post-irradiation.


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