Correlation of unstable multidrug cross resistance in Chinese hamster ovary cells with a homogeneously staining region on chromosome 1.

Abstract

An enrichment selection method using repeated pulses of low drug concentration (1 microgram/ml) was used to isolate CHO (AK412) variants that are 20-fold more resistant to cytochalasin D (CD). CD-resistant (CydR) variants possess a unique unstable phenotype, including a longer doubling time in nonselective medium, a higher frequency of multinucleate cells in the population (probably due to a defect in cytokinesis), an altered morphology, and increased resistance or sensitivity to a number of unrelated drugs. In each of two variant lines examined cytologically, this multiple phenotype is associated with a small homogeneously staining region on chromosome 1. The homogeneously staining region is present in the CydR variants, but absent both in the CD-sensitive parent and in a CD-sensitive revertant subpopulation. Studies of CD-displaceable binding of [3H]cytochalasin B show a fourfold reduction in CD binding or uptake when whole cells of the variant line were examined. Lactoperoxidase-catalyzed iodination and metabolic labeling with [H3]fucose of cell surface proteins of the CydR variants showed multiple differences in electrophoretic band migration when compared with parental proteins.