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Genome-wide siRNA screen reveals coupling between mitotic apoptosis and adaptation.


ABSTRACT: The antimitotic anti-cancer drugs, including taxol, perturb spindle dynamics, and induce prolonged, spindle checkpoint-dependent mitotic arrest in cancer cells. These cells then either undergo apoptosis triggered by the intrinsic mitochondrial pathway or exit mitosis without proper cell division in an adaptation pathway. Using a genome-wide small interfering RNA (siRNA) screen in taxol-treated HeLa cells, we systematically identify components of the mitotic apoptosis and adaptation pathways. We show that the Mad2 inhibitor p31(comet) actively promotes mitotic adaptation through cyclin B1 degradation and has a minor separate function in suppressing apoptosis. Conversely, the pro-apoptotic Bcl2 family member, Noxa, is a critical initiator of mitotic cell death. Unexpectedly, the upstream components of the mitochondrial apoptosis pathway and the mitochondrial fission protein Drp1 contribute to mitotic adaption. Our results reveal crosstalk between the apoptosis and adaptation pathways during mitotic arrest.

SUBMITTER: Diaz-Martinez LA 

PROVIDER: S-EPMC4195789 | biostudies-other | 2014 Sep

REPOSITORIES: biostudies-other

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Genome-wide siRNA screen reveals coupling between mitotic apoptosis and adaptation.

Díaz-Martínez Laura A LA   Karamysheva Zemfira N ZN   Warrington Ross R   Li Bing B   Wei Shuguang S   Xie Xian-Jin XJ   Roth Michael G MG   Yu Hongtao H  

The EMBO journal 20140714 17


The antimitotic anti-cancer drugs, including taxol, perturb spindle dynamics, and induce prolonged, spindle checkpoint-dependent mitotic arrest in cancer cells. These cells then either undergo apoptosis triggered by the intrinsic mitochondrial pathway or exit mitosis without proper cell division in an adaptation pathway. Using a genome-wide small interfering RNA (siRNA) screen in taxol-treated HeLa cells, we systematically identify components of the mitotic apoptosis and adaptation pathways. We  ...[more]

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