Abstract: | Electron microscopic evidence suggests that sperm can be spontaneously incorporated by cultured cells but cytogenetic and biochemical evidence indicate that sperm do not introduce new genes into such cells with detectable frequency. Sperm suspensions from mouse or Chinese hamster epididymis or human semen were added to cultures of RAG, a mouse cell line which dies in HAT medium because of HPRT deficiency. In EMs, sperm appeared to be readily phagocytized and degraded by the cells. When sperm-treated cultures were transferred to HAT medium resistant clones arose at a frequency of about 10−6, or at least 25× the reversion rate of RAG. Most HAT-resistant clones had HPRT activity which migrated electrophoretically like HPRT of the sperm donor species, though one was apparently a spontaneous RAG revertant. Most HAT-resistant clones had some chromosomes of the sperm donor species. In human sperm× RAG clones, the array of human chromosomes suggested that the human parent had been diploid rather than haploid; some cells contained both homologues of a polymorphic pair and some contained both X and Y. Furthermore, some sperm suspensions plated alone into flasks generated colonies, thus revealing the presence of low numbers of viable somatic cells. Presence of contaminating somatic cells in a sperm suspension was correlated with ability to induce HAT-resistant colonies when the suspension was added to RAG cells. Taken together, the data suggest that correction of the HPRT deficiency of RAG by sperm suspensions occurs at very low frequency and is probably due to efficient spontaneous fusion of low numbers of contaminating somatic cells with RAG cells. |