cis-dominant regulation of CD4 and CD8 gene expression in rat/mouse T cell heterohybridomas.

To determine whether expression of CD4 and CD8 molecules on T cells is determined-solely by transacting regulators, we examined heterohybridomas derived from the fusion of a rat CD4+ T cell line and the CD4- CD8- mouse thymoma BW5147. The majority of hybrid offspring expressed rat CD4. However, a fraction of the cell lines obtained expressed not only rat CD4 but also various amounts of mouse CD4 and CD8 molecules from both species. Cloning of two of these heterogeneous lines revealed that expression of all four Ag varied not only between different clones but also within clonal populations. The expression of Ag not present on the parental cells suggested an alteration in the normally stable regulatory mechanisms present in those cells. Moreover, a lack of concordant expression between the rat and mouse loci was observed, indicating that active and silent homologous loci can exist together in single nuclei. Expression of CD4 and CD8 in these cells, therefore, cannot be solely mediated by trans-acting diffusible regulators but must also depend on cis-dominant effects on the loci themselves. The phenotypic heterogeneity of clonal populations was found to result from unpredictable shifts, both positive and negative, in the expression of CD4 and CD8 over time, indicating that the cis-dominant effects were only quasistable. Preliminary examinations of the density of 5-methylcytosine within the CD4 and CD8 loci in various phenotypic populations separated by FACS from within heterogeneous clones revealed a correlation between surface expression of the mouse CD8 protein and a lack of methylation around the mouse CD8 gene. In contrast, the CD4 gene remained extensively methylated regardless of its surface expression.