Recessive (mediator-) revertants from c-H-ras oncogene-transformed NIH 3T3 cells: tumorigenicity in nude mice and transient anchorage and serum independence of the recovered tumor cells in culture.

We have reported earlier the isolation of two recessive, serum- and anchorage-dependent revertants (R116 and R260) from a c-H-ras oncogene-transformed NIH 3T3 line. In both revertants, the oncogene was fully expressed and fusion of either revertant with (untransformed) NIH 3T3 cells, or of the two revertants with one another, resulted in transformed progeny. These, and other data, indicated that the transforming activity of the oncogene was impaired in the two revertants in consequence of defects in distinct genes needed to mediate this activity. We report here that neither revertant could be re-transformed by the K-ras or N-ras oncogene (though they could be re-transformed by several other oncogenes). The two revertants turned out to be tumorigenic in nude mice (though less so than the parental transformed cells). The tumor cells, as recovered, formed foci and had a transformed morphology and a greatly diminished serum and anchorage dependence. Growth of the cells in culture (for 20 passages) resulted in their regaining the characteristics (i.e., anchorage and serum dependence) of cultured R116 and R260 cells. Proliferation of the cells in nude mice was not accompanied by a change in the level of ras oncogene expression or in gene amplification, at least as manifested in the lack of appearance of double-minute chromosomes. The addition of the growth factors TGF alpha and beta to the medium of either revertant did not support anchorage-independent growth.