Abstract
Human-mouse somatic cell hybrids were made between adenine phosphoribosyltransferase-deficient mouse L cells and a strain of human primary fibroblasts and selected in medium containing alanosine and adenine (J. A. Tischfield and F. H. Ruddle, Proc. Natl. Acad. Sci. U.S.A. 71:45-49, 1974). These hybrids were tested for the generation of defective interfering (DI) particles of vesicular stomatitis virus to determine whether or not a host gene controls the induction of DI particles. None of the seven independently arising hybrid clones tested generated detectable DI particles during 13 successive undiluted passages. In addition, the parental human cells also failed to generate DI particles. In contrast, the parental mouse cells generated a detectable level of DI particles during continuous passage. Thus, failure to generate DI particles appears to act in a dominant fashion in these hybrids. Human chromosome 16 and adenine phosphoribosyltransferase were present, as a direct consequence of the selection system, in all of the hybrid clones that failed to generate DI particles. It was the only human chromosome observed in the cells of every hybrid clone. This was verified by both isozyme and karyotype analyses. After hybrids were back-selected (with 2,6-diaminopurine) for loss of human adenine phosphoribosyltransferase and chromosome 16, they gained the ability to generate DI particles. Replication of DI particles already present in virus stocks, however, was normal in all of the hybrid clones and the parental human cells. This suggests that the induction, but not the replication, of DI particles is affected by the human genome and that a factor on human chromosome 16 seems to selectively suppress the mouse cell's ability to generate DI particles in the hybrids. These results support the idea that the induction of DI particles is controlled in part by host cell function(s), as suggested previously (C. Y. Kang and R. Allen, J. Virol. 25:202-206, 1978).