Protein Synthesis in Hybrid Cells Derived from Fetal Rat × Mouse Chimeric Organs

Abstract

Malignant hybrid cells (As3) derived from fusion of rat hepatoma cells (Fu5AH) with mouse teratocarcinoma cells (OTT6050) were injected into genetically marked mouse blastocysts which were subsequently transferred into pseudopregnant surrogate mothers. From a total of 61 fetuses developed, four normally differentiated fetuses at day 18 of gestation showed hybrid cell contributions in their livers and a few other organs of endo-mesodermal origin. The chimeric tissues were briefly cultured in vitro and then further investigated for their protein synthesis using two-dimensional gel electrophoresis. After comparison of the protein patterns obtained from the corresponding normal rat and mouse organs, several rat-specific polypeptides were detected in the cultured chimeric tissues illustrating functional xenogeneic gene expression during in situ differentiation. In addition, some other rat proteins characteristic of the parental hybrid cell line disappeared. The tumorigenicity of the chimeric tissues was tested by subcutaneous transplantation into immunodeficient nude mice. Tumors originating from two of the four chimeric organs differed histologically from those formed by cells of the hybrid As3 line since they also contained muscle-like structures resembling rhabdomyosarcomas. The tumors were analyzed for their protein synthesis and compared with the three malignant cell lines of parental origin. The morphologic differences between the tumors derived from the chimeric organs and those developed from the As3 cell line were also reflected in characteristic differences of their protein synthesis patterns. Our results demonstrate that interspecific rat × mouse hybrid cells, when implanted into early mouse embryos, participate in fetal tissue differentiation and selectively repress certain rat gene products typical of the malignant parental cells as well as functionally reactivate other rat genes presumably required for normal development.