Spleen cells of b4b6 rabbits, shown to be deficient in their ability to produce b4Ig due to prenatal exposure to anti-b4, formed anti-T2 antibodies marked with the b4 determinant in response to solubilized T2 phage (S-T2) only when cultured in the presence of antibodies specific for the nonsuppressed type (b6), thus confirming and extending the previously reported observation of release from b4 suppression in cultured cells of b4-suppressed b4b5 rabbits treated with anti-b5 serum. Only antiallotype sera made in b4 rabbits were active in reversing b4 suppression. Anti-b5 or anti-b6 sera from rabbits of allotypes b6 or b5, respectively, when used in concentrations which completely or partially inhibited the formation of anti-T2 antibodies marked with the corresponding nonsuppressed allotype of the spleen donor, proved to be almost completely ineffective in causing release of suppression. Exceptions were noted when spleen cells of rabbits advanced in spontaneous escape from suppression were tested with such sera. The addition of normal b4 serum to non-b4 antiallotypic sera rendered them as effective in releasing b4 suppression in vitro as were antisera from b4 rabbits. Furthermore, the capacity of a b4 antiallotype serum to cause reversal of b4 suppression could be potentiated by the addition of normal b4 serum, indicating that nonantibody b4 Ig is a limiting factor in such a serum. Thus, the release from allotype suppression observed in cultures of spleen cells from b4-suppressed heterozygous rabbits is dependent upon the presence of two components: antibodies directed against the nonsuppressed allotype of the donor and normal b4Ig. These findings are interpreted in terms of alternate hypotheses involving (a) a mechanism of b4 derepression and (b) inactivation of a suppressor cell with recognition for a b4-labeled target.
BackgroundToll like receptors are one of the major innate immune system pathogen recognition systems. There is little data on the expression of the TLR10 member of this family in the horse.ResultsThis paper describes the genetic structure of the Equine TLR10 gene and its RNA expression in a range of horse tissues. It describes the phylogenetic analysis of the Equine TLR1,6,10,2 annotations in the horse genome, firmly identifying them in their corresponding gene clades compared to other species and firmly placing the horse gene with other TLR10 genes from odd-toed ungulates. Additional 3’ transcript extensions to that annotated for TLR10 in the horse genome have been identified by analysis of RNAseq data. RNA expression of the equine TLR10 gene was highest in peripheral blood mononucleocytes and lymphoid tissue (lymph nodes and spleen), however some expression was detected in all tissues tested (jejunum, caudal mesenteric lymph nodes, bronchial lymph node, spleen, lung, colon, kidney and liver). Additional data on RNAseq expression of all equine TLR genes (1–4 and 6–10) demonstrate higher expression of TLR4 than other equine TLRs in all tissues.ConclusionThe equine TLR10 gene displays significant homology to other mammalian TLR10 genes and could be reasonably assumed to have similar fuctions. Its RNA level expression is higher in resting state PBMCs in horses than in other tissues.Electronic supplementary materialThe online version of this article (doi:10.1186/s13104-016-2161-9) contains supplementary material, which is available to authorized users.
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