Frequency of metastasis in Syrian hamster tumor cells selected for low levels of “typical” multidrug resistance

Abstract

The metastatic capability of cells at the initial stages of selection for "typical" (P-glycoprotein-mediated) multidrug resistance (MDR) was studied. Two independent sublines, 2SC/4-1 and 2SC/4-2 (11-12.4-fold resistant), and their 23- to 23.7-fold resistant 2SC/20-1 and 2SC/20-2 variants were isolated from highly tumorigenic (TrD50 = 10 cells) and highly metastatic Rous sarcoma, virus-transformed Syrian hamster fibroblast HET-SR-2SC-LNM line for resistance to colchicine. 2SC/4 cells were less tumorigenic (TrD50 = 70 cells) but as highly metastatic as parental counterparts. In contrast, both 2SC/20 variants showed a decrease in tumorigenicity (TrD50 = 320 cells) and in the capability to produce spontaneous distant metastases. 2SC/20 cells almost lost the ability to colonize lungs in experimental metastasis assay. The autophosphorylation of pp60src tyrosine kinase in 2SC/20 cells was unaltered. The results suggest that i) selection of tumor cells for low levels of "typical" MDR leads to a decrease in the frequency of spontaneous and experimental metastases, and ii) alterations of malignancy in these cells are not caused by an impairment of function of a transforming oncogene.