19 HSC cotransplantation markedly enhanced expression of CD62L on

19 HSC cotransplantation markedly enhanced expression of CD62L on infiltrated CD11b+ cells, but not others (Supporting Fig. 1B). The antigen stimulatory activity of these purified CD11b+ cells was examined in a one-way mixed leukocyte reaction (MLR) culture

where carboxyfluorescein diacetate succinimidyl ester (CFSE)-labeled B6 spleen T cells were stimulated by CD11b+ cells pulsed with BALB/c spleen cell lysate (without pulsing served as controls). CD11b+ cells from islet/HSC grafts elicited weaker proliferative response in both CD4 and CD8 T cells with less IFN-γ production, but generated more CD4+Foxp3+ cells compared to the islet-alone group (Fig. 2B). To determine their immune regulatory activity, the isolated CD11b+ cells were added to the culture of CFSE-labeled T cells at a ratio of 1:10. T-cell proliferation was elicited by anti-CD3 mAb. Addition of CD11b+ cells from islet/HSC, but not from selleckchem islet alone grafts, markedly suppressed the proliferative response and IFN-γ production in both CD4+ and CD8+ T cells. This was associated with markedly RXDX-106 nmr reduced T-cells numbers (Fig. 2C, right panels, P < 0.05, islet versus islet/HSC) due to enhanced T-cell apoptosis as determined by annexin V staining (Fig. 2C). Taken together, these data on CD11b+ cells in islet/HSC grafts demonstrated many characteristics of MDSC: CD11clow,

Thymidylate synthase immature phenotype, expressing high iNOS and arginase1, immune inhibitory activity,16, 20 suggesting that cotransplanted HSC are potent inducers of MDSC. MDSC have

been shown to mediate development of Treg cells.18 To study the correlation of MDSC and Treg cells induced by HSC cotransplantation, CD11b+CD11c− cells and CD4+Foxp3+ cells were kinetically analyzed by immunohistochemistry and flow cytometry in the grafts, draining LN, and spleen following transplant. CD11b+CD11c− cells were remarkably increased in islet/HSC grafts, peaking on POD 7, compared to islet alone, gradually declined thereafter, and hardly found in long-term survival grafts (Fig. 3A). An increase in CD11b+CD11c− cells was also seen in dLN and spleen, and remained high there in the recipients with long-term survival grafts (Fig. 3B,C). The changes of CD11b+CD11c− cells (MDSC) were well correlated with that of CD4+Foxp3+ Treg cells, suggesting a close relationship of the two cell populations. Induction of MDSC has been shown to require inflammatory stimulation.21, 22 We hypothesized that HSC might lose their ability to induce MDSC when IFN-γ stimulation was blocked. This was tested by using HSC from IFN-γR1−/− mice for islet cotransplantation. Following transplantation, the graft CD11b+ and CD4+ cells were evaluated by both immunohistochemistry and flow cytometry for expression of CD11c and Foxp3, respectively. As shown in Fig.

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