Dominant suppressive effect of the silent Eb alpha allele on an in vivo T helper cell response under Ed beta Ed alpha region-linked immune response gene control

Abstract

Previous adoptive spleen cell transfer experiments have demonstrated that an immune response (Ir) gene linked to the Ed beta Ed alpha region allows BALB/c T helper lymphocytes (Th) to respond to an idiotope on the V lambda 2(315) fragment of isologous myeloma protein M315. BALB.K (H-2k) and BALB.B (H-2b) do not respond to V lambda 2(315). While (H-2d X H-2k)F1 hybrids have been shown to be responders, it is now demonstrated that (H-2d X H-2b)F1 hybrids are low responders. By crossing BALB/c with various H-2 recombinants on B10 background and probing Th responsiveness to V lambda 2(315) in these F1 hybrids, the dominant suppressive gene of the H-2b haplotype is mapped to Eb alpha Sb. It is argued that the suppressive gene is Eb alpha, which is a silent allele. A likely explanation for the suppressive effect of the Eb alpha allele is that reduced amounts of Ed beta: Ed alpha restriction elements are present on antigen-presenting cells of (H-2d X H-2b)F1 hybrids because only one E alpha gene is functional in such mice. The present report extends previous in vitro findings from other laboratories to the in vivo situation and suggests that silent alleles for class II molecule chains may profoundly affect certain immune responses of individuals heterozygous for the silent allele.