Although the mechanisms that determine TCR-alpha beta V gene repertoire are well studied, the genetic influences involved in TCR-gamma delta repertoire development are unclear. Unlike the TCR-gamma delta populations that localize in epithelial tissues, the circulating peripheral TCR-gamma delta V region repertoire is quite diverse. Previous studies have shown that three TCR-gamma chains and at least six TCR-V delta genes are expressed by splenic TCR-gamma delta cells. However, the relative frequency of individual gamma delta subsets among genetically diverse mice has not been determined. Therefore, the repertoire of TCR-gamma delta cells was examined using anti-TCR V region specific mAb against V gamma 2 and V delta 4 on TCR-gamma delta + cells from total splenocytes. We found that there was a strain-specific variation in TCR-gamma delta usage. The frequency of V gamma 2 expression in different strains varied from 54 to 12%, and the frequency of V delta 4 expression in different strains varied from 38 to 10%. However, the level of V delta 4 and V gamma 2 expression for an individual strain was highly consistent from experiment to experiment. F1 analysis between parental strains that differed in relative frequency of either V gamma 2+ or V delta 4+ cells revealed that high expression was genetically dominant, suggesting that positive selection events play a major role in the peripheral gamma delta repertoire. Variations in the levels of V gamma 2+ cells and V delta 4+ cells was not associated with Mls or MHC haplotype. Analysis of recombinant inbred strains revealed that high V delta 4 expression mapped to the TCR-gamma locus, while high V gamma 2 expression was influenced by the TCR-delta locus. Back-cross analysis confirmed that the TCR loci dominantly influenced the level of V delta 4+ cells and V gamma 2+ cells; however, there was clear evidence that multiple genes affect the TCR-gamma delta repertoire.
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