Genetic events during the transformation of a tamoxifen-sensitive human breast cancer cell line into a drug-resistant clone

Tamoxifen resistance is a serious clinical problem commonly encountered in the management of patients with breast cancer. The mechanisms leading to it s development are unclear. Tamoxifen acts via multiple pathways and has div erse effects. Hence transformation from a tamoxifen-sensitive to a resistan t phenotype could involve multiple genetic events. Knowledge of the genetic pathways leading to resistance may facilitate the development of novel the rapeutic strategies. In this study, a variation of conventional comparative genomic hybridization (CGH) has been employed to detect genetic alteration s associated with tamoxifen resistance. MCF-7, a tamoxifen-sensitive human breast cancer cells line, and its tamoxifen-resistant clone, CL-9 were used . Both cell lines showed extensive areas of concordance but consistent diff erences were seen with the acquisition of tamoxifen resistance. These diffe rences included the amplification of 2p16.3 similar to p23.2, 2q21 similar to q34, 3p12.3 similar to p14.1, 3p22 similar to p26, 3q, 12q13.2 similar t o q22, 13q12 similar to q14, 17q21.3 similar to q23, 20q11.2 similar to q13 .1 and 21q11.2 similar to q21 as well as the deletion of 6p21.1, 6p23 simil ar to p25, 7q11.1 similar to q31, 7q35 similar to q36, 11p15, 11q24, 13q33, 17p, 18q12 similar to q21.1, 19p, 19q13.3, 22q13.1 similar to q13.2. These findings were supported by conventional cytogenetics and chromosome painti ng. The regions identified by CGH potentially harbor genes that could be im portant in the development of tamoxifen resistance. (C) 2001 Elsevier Scien ce Inc. All rights reserved.