Tolerance of Whole-Genome Doubling Propagates Chromosomal Instability and Accelerates Cancer Genome Evolution

Dewhurst, Sally M.; McGranahan, Nicholas; Burrell, Rebecca A.; Rowan, Andrew; Grönroos, Eva; Endesfelder, David; Joshi, Tejal; Mouradov, Dmitri; Gibbs, Peter; Ward, Robyn L.; Hawkins, Nicholas J.; Szállási, Zoltán; Sieber, Oliver M.; Swanton, Charles

doi:10.1158/2159-8290.cd-13-0285

Cited by 375 publications

(397 citation statements)

References 34 publications

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“…Polyploidy is linked to increased genomic instability and the induction of tumor heterogeneity and ultimately drug resistance. [22][23][24][25] In this study we have determined that the G2/M arrest we previously reported in HDACi-sensitive DLBCL cell lines is due to accumulation of cells in early mitosis, consistent with SAC activation. In contrast, the HDACi belinostat delays mitotic progression but does not prevent mitotic completion in HDACi-resistant DLBCL cell lines.…”

Section: Introductionsupporting

confidence: 75%

Belinostat and vincristine demonstrate mutually synergistic cytotoxicity associated with mitotic arrest and inhibition of polyploidy in a preclinical model of aggressive diffuse large B cell lymphoma

Havas

Rodrigues

Bhakta

et al. 2016

Cancer Biology & Therapy

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Diffuse Large B-cell lymphoma (DLBCL) is an aggressive malignancy that has a 60 percent 5-year survival rate, highlighting a need for new therapeutic approaches. Histone deacetylase inhibitors (HDACi) are novel therapeutics being clinically-evaluated in combination with a variety of other drugs. However, rational selection of companion therapeutics for HDACi is difficult due to their poorly-understood, celltype specific mechanisms of action. To address this, we developed a pre-clinical model system of sensitivity and resistance to the HDACi belinostat using DLBCL cell lines. In the current study, we demonstrate that cell lines sensitive to the cytotoxic effects of HDACi undergo early mitotic arrest prior to apoptosis. In contrast, HDACi-resistant cell lines complete mitosis after a short delay and arrest in G1. To force mitotic arrest in HDACi-resistant cell lines, we used low dose vincristine or paclitaxel in combination with belinostat and observed synergistic cytotoxicity. Belinostat curtails vincristine-induced mitotic arrest and triggers a strong apoptotic response associated with downregulated MCL-1 expression and upregulated BIM expression. Resistance to microtubule targeting agents (MTAs) has been associated with their propensity to induce polyploidy and thereby increase the probability of genomic instability that enables cancer progression. Co-treatment with belinostat effectively eliminated a vincristine-induced, actively cycling polyploid cell population. Our study demonstrates that vincristine sensitizes DLBCL cells to the cytotoxic effects of belinostat and that belinostat prevents polyploidy that could cause vincristine resistance. Our findings provide a rationale for using low dose MTAs in conjunction with HDACi as a potential therapeutic strategy for treatment of aggressive DLBCL.

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Section: Introductionsupporting

confidence: 75%

Belinostat and vincristine demonstrate mutually synergistic cytotoxicity associated with mitotic arrest and inhibition of polyploidy in a preclinical model of aggressive diffuse large B cell lymphoma

Havas

Rodrigues

Bhakta

et al. 2016

Cancer Biology & Therapy

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“…We recently showed that tetraploid cells are better able to tolerate chromosome missegregation events than diploid cells, resulting in the evolution of CIN in tetraploid cells over extended periods of time in laboratory culture. 3 In this issue of Cell Cycle, Storchova and colleagues confirm these results, and elegantly extend their analysis to search for a mechanistic basis for CIN tolerance in tetraploid cells. 4 In this study, the authors investigate genome stability in tetraploid clones derived from HCT-116 and hTERT-RPE1 cells.…”

Section: Tetraploidy and Cin: A Dangerous Combinationmentioning

confidence: 73%

“…Given the association between genome duplication and poor patient prognosis. 3,7 together with the tolerance of segregation errors as a major route to CIN, this promises to be a fruitful area for further research.…”

Section: Tetraploidy and Cin: A Dangerous Combinationmentioning

confidence: 99%

Tetraploidy and CIN: a dangerous combination

Dewhurst

Swanton

2015

Cell Cycle

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“…The mechanism via which tetraploidization affects genome integrity and other basic biological processes remains poorly understood. A recent study showed that doubling of chromosome number upon tetraploidization increases the chances of chromosome aberrations and cellular tolerance to aneuploidy, potentially promoting expansion of cell population with chromosomal abnormalities [9]. Another possible cause of tetraploidy-linked cellular defects is doubling of centrosome number, which accompanies cell division failure and adversely affects proper mitotic regulation through multipolar spindle formation [10].…”

mentioning

confidence: 99%

Tetraploidy-associated centrosome overduplication in mouse early embryos

Yaguchi

Yamamoto

Matsui

et al. 2018

Communicative & Integrative Biology

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Recently, we observed that tetraploidization of certain types of human cancer cells resulted in upregulation of centrosome duplication cycles and chronic generation of the extra centrosome. Here, we investigated whether tetraploidy-linked upregulation of centrosome duplication also occurs in non-cancer cells using tetraploidized parthenogenetic mouse embryos. Cytokinesis blockage at early embryonic stage before de novo centriole biogenesis provided the unique opportunity in which tetraploidization can be induced without transient doubling of centrosome number. The extra numbers of the centrioles and the centrosomes were observed more frequently in tetraploidized embryos during the blastocyst stage than in their diploid counterparts, demonstrating the generality of the newly found tetraploidy-driven centrosome overduplication in mammalian non-cancer systems.

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Tolerance of Whole-Genome Doubling Propagates Chromosomal Instability and Accelerates Cancer Genome Evolution

Cited by 375 publications

References 34 publications

Belinostat and vincristine demonstrate mutually synergistic cytotoxicity associated with mitotic arrest and inhibition of polyploidy in a preclinical model of aggressive diffuse large B cell lymphoma

Belinostat and vincristine demonstrate mutually synergistic cytotoxicity associated with mitotic arrest and inhibition of polyploidy in a preclinical model of aggressive diffuse large B cell lymphoma

Tetraploidy and CIN: a dangerous combination

Tetraploidy-associated centrosome overduplication in mouse early embryos

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