The susceptibility to natural killer (NK)-mediated cell lysis of Adenovirus type 2 (Ad2)-transformed rat embryo fibroblast cell lines, which differed markedly in tumorigenic potential in vivo (T2C4 greater than F19 greater than F17), was investigated by using NK effector cells from F344 rat or athymic nude rat spleens. A comparison of the degree of NK-mediated lysis obtained with these tumor cell targets suggested a direct relationship between the resistance of a cell to NK cell lysis and its potential to form tumors in vivo. The cells were lysed in the following order of increasing susceptibility: T2C4 less than F4 less than F19 less than F17. Whether T cells or macrophages played a significant role in the observed lytic activity was determined by treating the NK effector cell population with anti-rat T cell serum (alpha T) and complement or by depletion of macrophages after binding to a glass bead column and treatment with carbonyl iron. A series of clonal sublines derived from the parental F17 and F4 cell lines further strengthened this relationship between tumorigenesis and resistance to NK-mediated cell lysis. Tumorigenic subclones from the non-tumorigenic F17 parental cells were demonstrated to be comparatively resistant to NK-mediated lysis. Tumorigenic subclones from tumorigenic F4 parental cell population showed a susceptibility to NK-mediated cell lysis virtually identical to the parental F4 cells. The implication of these results are discussed.