INTRODUCTION OF NORMAL CHROMOSOME-3P MODULATES THE TUMORIGENICITY OF A HUMAN RENAL-CELL CARCINOMA CELL-LINE YCR

Abstract

It has been suggested that loss and/or mutational inactivation of a gene or genes on the short arm of chromosome 3 (3p) may play a crucial role in the development of human renal cell carcinoma (RCC). If it is correct, the normal allele may carry suppressor activity for a tumor-associated phenotype(s). In order to test the hypothesis, we introduced a single chromosome containing 3p into a human renal cell carcinoma cell line YCR via microcell fusion, and examined tumorigenicity in nude mice and in vitro growth-properties. The following chromosomes derived from normal human fibroblasts were transferred to YCR or 6-thioguanine-resistant YCR cells: t(X;3) consisting of Xpter > Xq26::3p12 > 3pter, X, pSV2neo-tagged chromosome 11, and 3/t consisting of pSV2neo-tagged 3p and unknown segments. The introduction of t(X;3) or 3/t resulted in suppression of tumorigenicity or modulation of tumor-growth rate, whereas transfer of other chromosomes, i.e., X and 11, had no effect on tumorigenicity or tumor-growth rate of the cells. In vitro growth properties, i.e., cell-growth in medium containing 1% or 10% serum, growth in soft-agar and saturation density, were not correlated with the tumor-growth. In addition, the tumor-growth rate of 6-thioguanine-resistant segregants which have lost the t(X;3) became similar to that of the parental YCR cells. Thus, the introduction of 3p modulated at least the tumor-growth, indicating the presence on the 3p of a putative tumor-suppressor gene(s) for human RCC.