Analysis of microsatellite instability in acquired drug-resistance human tumor cell lines.

Genomic instability characterized as microsatellite instability (MIN) is associated with loss of DNA mismatch repair (MMR) protein. Several studies have shown that loss of DNA MMR protein confers resistance to some interacting DNA chemotherapeutic drugs, but also that exposure of MMR-proficient cells to these drugs can result in loss of MMR protein accompanied by induction of MIN. Such associations were mainly reported for cisplatin, but scarce data are available for doxorubicin (a DNA interacting agent), and nothing is known about vinblastine (an antitubulin agent).

Human colon cancer cells surviving high doses of cisplatin or oxaliplatin in vitro are not defective in DNA mismatch repair proteins.

Purpose: Alterations in the DNA mismatch repair (MMR) proteins have been associated with an increased resistance of many cancer cell lines to cisplatin. The aim of this work was to investigate whether defects in DNA MMR proteins are involved in the survival of human colorectal cancer cells in the presence of high concentrations of cisplatin and oxaliplatin, a diaminocyclohexane (DACH) platinum compound whose adducts are not recognized by the MMR system.

Methods: Six unselected human colon cancer cell lines (HT29, HCT15, HCT116, Caco2, SW480 and SW620) were treated with a single 3-h exposure to cisplatin or oxaliplatin at suprapharmacological concentrations, ranging from 50 to 200 microg/ml.