2a) and in the blood (Fig  2b) and spleen (Fig  2c,d) at 16 weeks

2a) and in the blood (Fig. 2b) and spleen (Fig. 2c,d) at 16 weeks. Irradiation was required for T cell development

in NSG mice injected with HSC, with only very low levels of human Venetoclax clinical trial CD3+ cells detected in non-irradiated mice in the absence of a thymus implant. In contrast, human T cell development was not significantly different between non-irradiated and irradiated HSC-engrafted NSG mice that were implanted with human thymic tissue. Moreover, human thymic tissues recovered from non-irradiated and irradiated NSG mice showed no structural differences by H&E (Fig. 2e,f) or human CD45 staining (Fig. 2g,h). Slightly higher numbers of human CD45+ cells were recovered from thymic tissues of irradiated NSG mice at 12 weeks compared to non-irradiated mice (Supporting information, Fig. S3a), but the proportions of CD4 and CD8 single-positive thymocytes and double-positive thymocytes were similar (Supporting information, Fig. S3b). In all groups of mice that developed detectable levels of human CD3+ T cells, CD4 T cells were present at higher levels compared to CD8 T cells (Fig. 2i,j). We also evaluated if the number of CD34+ HSC injected influenced the levels of human T cells developing in the periphery. For this, NSG mice that were either non-irradiated or irradiated and then implanted with human fetal thymic and liver

tissues and HSC were evaluated for human CD3+ T cells in the peripheral blood at 12 weeks (Supporting information, Fig. S1b,d). As seen with human CD45+ levels, there was no correlation between the number of HSC-injected and levels of selleckchem human T cells in peripheral blood. To determine if irradiation influences the activation status of human T cells developing Unoprostone in HSC-engrafted mice, the expression of CD45RA was examined on human CD4+ and CD8+ cells in the blood at 12 and 16 weeks and in

the spleen at 16 weeks (Supporting information, Fig. S4). CD45RA expression levels are not shown for mice injected with human HSC in the absence of irradiation due to the extremely low levels of T cell development. For NSG mice implanted with human thymic tissues and injected with HSC, irradiation did not change the CD45RA expression levels significantly on human CD4 and CD8 T cells in the peripheral blood (Supporting information, Fig. S4a,b,d,e) and spleen (Supporting information, Fig. S4c,f) compared to mice that did not receive irradiation. Interestingly, T cells from NSG mice that were irradiated and injected with HSC only were consistently lower in the expression of CD45RA compared to mice also implanted with thymic tissues, consistent with a recently published study [21], suggesting that the development of human T cells on human thymic tissue helps to maintain a naive phenotype of human T cells. Representative flow plots displaying CD45RA and CD62L staining of human CD4 (Supporting information, Fig. S4g,h) and CD8 (Supporting information, Fig.

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