Sheep were immunized by weekly oral infections with Haemonchus contortus for 9 weeks followed by anthelmintic treatment. They were challenged either 9 or 22 weeks later with PBS (sham controls) or one million exsheathed L3 surgically injected in the abomasum, and killed 24 h or 48 h later. Sheep challenged 9 weeks after immunization displayed varying degrees of tissue eosinophilia that showed a significant inverse relationship with the number of intra-epithelial mast cells (globule leucocytes). Close association of eosinophils with tissue larvae was observed mainly in the gastric pits (24 h) or on the mucosal surface (48 h). All L3-challenged sheep in this group had detectable globule leucocytes and tissue IL-4 mRNA, as measured by Southern blot RT-PCR. In contrast, sheep challenged 22 weeks after immunization had no detectable globule leucocytes or IL-4 mRNA and although they exhibited consistent tissue eosinophilia, eosinophils were not closely associated with tissue larvae. Scanning and transmission electron microscopy of sheep sensitized and rested for 9 weeks before challenge showed that L3 surrounded by eosinophils were at varying stages of damage and structural collapse. These studies strongly indicate that eosinophils can damage and probably kill gastrointestinal nematode larvae in vivo. In addition, they also suggest that effective killing by tissue eosinophils may depend on other microenvironmental factors such as intra-epithelial mast cells and IL-4.
The sheep T19 multigene family contains at least 50 genes which are thought to be expressed exclusively on gammadelta T cells. The archetypal T19 molecule (represented by a full-length cattle cDNA clone termed WC1) is thought to have a relative molecular mass of about 220 000 and to contain 11 scavenger receptor cysteine rich (SRCR) repeats and a long cytoplasmic tail. In this study, purified CD4(+) and gammadeltaTCR+ sheep lymphocytes were examined by reverse transcriptase-polymerase chain reaction for the expression of T19 molecules. As expected, gammadelta T cells were found to express T19 molecules which closely resembled the archetypal form. However, CD4(+) alphabeta T cells were found to express at least two different types of T19 molecules; one resembled the previously described T19 molecules of gammadelta T cells which possessed the archetypal WC1-like structure, but a novel type of T19 variant which lacked SRCR domains 10 and 11 was also found in CD4(+) T cells but not gammadelta T cells. This novel molecule exhibited an unusual, incomplete SRCR repeat 9 joined directly to a hinge region. The transmembrane and cytoplasmic domains of this unusual T19 variant resembled the cattle T19 clone WC1, except that a complete exon within the cytoplasmic region was missing. These results, in contradistinction to existing serological data, suggest that expression of the T19 gene family is not confined to gammadelta T cells. Selected T19 genes are apparently expressed within CD4(+) T cells and possibly other lymphocytes as well.
A diverse repertoire among peripheral T cells is established in early life by thymic export when the naive T cell pool is first formed. In contrast, during adult life the thymus has been thought to play only a minor role in T cell homeostasis. As individuals age there is an increasing proportion of peripheral T cells bearing a memory phenotype, as well as a corresponding decrease in the number of naive T cells. The change in the composition of the peripheral T cell pool with age is thought to occur as a result of reduced or completely curtailed thymic export following thymic involution at puberty together with the antigen-driven expansion of naive T cells in the periphery. We examined thymic export throughout life in fetal, neonatal and aged sheep. We found that the thymus in adult animals showed an efficiency of production and export on a per gram basis equivalent to that observed for much younger animals, and continued to export substantial numbers of T cells long after puberty. The data demonstrate that naive T cells constantly enter the peripheral T cell pool at the same rate throughout fetal, neonatal and adult life, and that one in every 50 T cells in the peripheral lymphoid tissues of aged sheep had emigrated from the thymus in the previous 24 h. The data suggest that restoration by the thymus of a normal peripheral T cell repertoire in chronic T cell-depleting conditions should be possible in adult patients, provided the thymus is not damaged by disease or therapy.
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