Inhibition of phorbol ester-mediated phenotypic changes in cultured cells by hypoxanthine

Hypoxanthine induces the differentiation of certain transformed cells in vitro, so analyses were undertaken to determine whether this purine metabolite might influence the expression of transformed phenotypes induced in normal cells by chemical agents. Chinese hamster embryo cells and human skin fibroblasts in culture were treated with the promoting agent phorbol-12,13-didecanoate (PDD) with or without prior treatment with 3-methylcholanthrene (MCA), and various phenotypic effects were monitored. Hypoxanthine was found to inhibit significantly the formation of type III foci and the increase in saturation density observed for Chinese hamster cells treated with MCA plus the phorbol ester. Inosine and the hypoxanthine analogue allopurinol could also mediate the effect on saturation density, while xanthosine could not. An increase in the saturation density of human skin fibroblasts, which can be induced by the phorbol ester alone, was also inhibited by hypoxanthine. There was no significant effect on the growth rate or the intracellular nucleotide pools with hypoxanthine-treated cells. The results suggest that a normal purine metabolite, hypoxanthine, can modulate the expression of transformed phenotypes induced in vitro by the known tumor promotor PDD. These observations could help in elucidating the cellular basis for promotion of carcinogenesis.