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Acquisition of chemoresistance in a human ovarian carcinoma cell line is linked to a defect in cell cycle control

✍ Scribed by Laurent Poulain; Hubert Lincet; Françoise Duigou; Edwige Deslandes; François Sichel; Pascal Gauduchon; Cathy Staedel

Publisher: John Wiley and Sons
Year: 1998
Tongue: French
Weight: 588 KB
Volume: 78
Category: Article
ISSN: 0020-7136
DOI: 10.1002/(sici)1097-0215(19981109)78:4<454::aid-ijc11>3.0.co;2-6

No coin nor oath required. For personal study only.

✦ Synopsis

Chemoresistance is a major concern in cancer erradication; it involves various mechanisms, including defects in the apoptosis program induced by anticancer drugs. In order to further explore the mechanisms underlying the development of chemoresistance in ovarian carcinoma after cisplatin treatment, we established an in vitro model, mimicking a clinical protocol of administration of cisplatin. Therefore, IGROV1 ovarian carcinoma cells were exposed for 2 hr to the drug and allowed to recover for several weeks; this way of exposure was reiterated with escalating doses. We followed changes in cytotoxicity of the drug, cell cycle kinetics and long-term survival of cells after cisplatin treatment, and found that resistance to cisplatin was not associated with altered apoptosis pathway, since both cisplatin sensitive and resistant cells underwent apoptosis in a similar way. Acquisition of resistance to cisplatin was associated with the ability of the treated cells to progress through the cell cycle beyond the G 1 /S checkpoint; although most cells died by apoptosis, a few surviving cells proliferated and recolonized the cultures. Compared to sensitive cells, the chemoresistant variants were able to override the G 1 /S checkpoint whatever the dose, and the recurrent cells recolonized the cultures much faster. Analysis of alterations in gene expression suggests that the defect in cell cycle regulation could take place at the level of the cdk inhibitor p21 CIP1/WAF1 .

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