1. γδ T cells shape memory-phenotype αβ T cell populations in non-immunized mice
- Author
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Phalke, Swati Popat, Huang, Yafei, Rubtsova, Kira, Getahun, Andrew, Sun, Deming, Reinhardt, Richard Lee, O’Brien, Rebecca R.L., Born, Willi W.K., Phalke, Swati Popat, Huang, Yafei, Rubtsova, Kira, Getahun, Andrew, Sun, Deming, Reinhardt, Richard Lee, O’Brien, Rebecca R.L., and Born, Willi W.K.
- Abstract
Size and composition of γδ T cell populations change dramatically with tissue location, during development, and in disease. Given the functional differentiation of γδ T cell subsets, such shifts might alter the impact of γδ T cells on the immune system. To test this concept, and to determine if γδ T cells can affect other immune cells prior to an immune response, we examined non-immunized mice derived from strains with different genetically induced deficiencies in γδ T cells, for secondary changes in their immune system. We previously saw extensive changes in pre-immune antibodies and B cell populations. Here, we report effects on αβ T cells. Similarly to the B cells, αβ T cells evidently experience the influence of γδ T cells at late stages of their pre-immune differentiation, as single-positive heat stable antigen-low thymocytes. Changes in these and in mature αβ T cells were most prominent with memory-phenotype cells, including both CD8+ and CD4+ populations. As previously observed with B cells, most of the effects on αβ T cells were dependent on IL-4. Unexpectedly, IL-4 seemed to be produced mainly by αβ T cells in the non-immunized mice, albeit strongly regulated by γδ T cells. Similarly to our findings with B cells, changes of αβ T cells were less pronounced in mice lacking all γδ T cells than in mice lacking only some, suggesting that the composition of the γδ T cell population determines the nature of the γδ-influence on the other pre-immune lymphocytes., SCOPUS: ar.j, info:eu-repo/semantics/published
- Published
- 2019