Reduced joining of DNA ends correlates with chromosomal instability in three melanoma cell lines.

Chromosomal instability plays a pivotal role in multistep carcinogenesis by facilitating the acquisition of the multiple genetic alterations necessary for malignant transformation. In order to study the role of abnormal DNA repair in malignant melanoma, we measured the ability of cell lines from malignant melanoma and that of primary melanocytes to process 4 different kinds of DNA damage (pyrimidine dimers, oxidative DNA lesions, replication errors, and DNA double-strand breaks) using 4 different plasmid assays. Based on the number of chromosomes, the DNA index, and the rates of spontaneous micronuclei, the chromosomal stability in primary melanocytes and the melanoma line LIBR was characterized as being high, intermediate in M1, and low in MeWo.