Essing lymph node cells did not decrease, but rather I-BRD9 web increased moderately (Fig. 4B). To determine whether treatment with curcumin affected the number of circulating regulatory T cells in 10781694 vivo, CD4+ and CD8+ splenocytes isolated from each group were analyzed for CD25 and Foxp3 expression. Interestingly, the CD25+Foxp3+ subset of CD4+ splenocytes was increased upon treatment with curcumin. In addition, the percentage of CD8+CD25+Foxp3+ cells also increased in the curcumin-treated group (Fig. 4C). Taken together, curcumin treatment on donor splenocytes significantly inhibited IFN-c expression and reciprocally expanded Treg population in recipient mice. On the other hand, the present study showed that effects of curcumin on IL-4 and IL-17 expressions demonstrated conflicting results in splenocytes and lymph node cells. Next, we determined to identify whether or not curcumin treatment affects cell populations of hematopoietic stem cell (HSC), dendritic cell (DC), and natural killer cells (NK cells) in recipient mice after BMT. There was no significant difference in HSC (c-kit or CD34-expressing cells) and DC (CD11c-expressing cells) population in spleens and bone marrows that were isolated from mice of each group. Although the difference was marginal, NK cell (NK1.1-expressing cells) population in spleens and bone marrows tended to decrease in curcumin-treated group, compared to that of vehicle-treated mice (Fig. S2). Based on the flow cytometry data that showed the majority of CD4+ T cells and whole splenocytes expressed H-2kb but not H-2kd, those cells from mice transplanted with curcumin- and vehicle-treated splenocytes almost originated from donor cells. And curcumin treatment on donor splenocytesTransfer of Curcumin-treated Splenocytes Protects Mice from Acute GVHD after Bone Marrow TransplantBecause curcumin significantly suppressed alloreactivity in vitro, we next assessed its effects in vivo using a murine model of acute GVHD. Severe acute GVHD occurred in all BALB/c (H-2kd) recipient mice undergoing bone marrow transplantation (BMT) and infusion of donor (B6 mice, H-2kb) splenocytes that were cultured with or without curcumin (10 mM). Using this strategy, we found that acute GVHD animals transplanted with curcuminTherapeutic Efficacy of Curcumin in Acute GVHDFigure 1. Curcumin 1485-00-3 inhibits alloreactive T cell responses and that is associated with downregulation of IFN-c and IL-17. (A) A total of 105 RBC-lysed C57BL/6 (B6) splenic T cells (responders) were incubated with 105 irradiated RBC-lysed B6 splenic T cells (syngenic stimulators) or BALB/ c splenic T cells (allogeneic stimulators) in an MLR. Curcumin was added on day 0, and T cell proliferation was measured by 3H-thymidine incorporation in each group. (B) The concentrations of IFN-c and IL-17 in culture supernatants (A) were measured by ELISA. Data are shown as mean 6 SD from at least 3 independent experiments. *P,0.05, **P,0.01, ***P,0.001. (C) A total of 105 RBC-lysed B6 splenic T cells (responders) were incubated with 105 irradiated and RBC-lysed B6 T cells (syngenic stimulators) or BALB/c splenic T cells (allogenic stimulators) in an MLR. Curcumin (2.5 mM) was added on day 0, and cells were harvested on day 4. Then, intracellular staining for IL-4, IFN-c, IL-17, and Foxp3 in isolated CD4+ T cells was performed and analyzed by flow cytometric analysis. The flow cytometry data that are shown in (C) is representative of three independent experiments. Bars are shown as mean 6 SD f.Essing lymph node cells did not decrease, but rather increased moderately (Fig. 4B). To determine whether treatment with curcumin affected the number of circulating regulatory T cells in 10781694 vivo, CD4+ and CD8+ splenocytes isolated from each group were analyzed for CD25 and Foxp3 expression. Interestingly, the CD25+Foxp3+ subset of CD4+ splenocytes was increased upon treatment with curcumin. In addition, the percentage of CD8+CD25+Foxp3+ cells also increased in the curcumin-treated group (Fig. 4C). Taken together, curcumin treatment on donor splenocytes significantly inhibited IFN-c expression and reciprocally expanded Treg population in recipient mice. On the other hand, the present study showed that effects of curcumin on IL-4 and IL-17 expressions demonstrated conflicting results in splenocytes and lymph node cells. Next, we determined to identify whether or not curcumin treatment affects cell populations of hematopoietic stem cell (HSC), dendritic cell (DC), and natural killer cells (NK cells) in recipient mice after BMT. There was no significant difference in HSC (c-kit or CD34-expressing cells) and DC (CD11c-expressing cells) population in spleens and bone marrows that were isolated from mice of each group. Although the difference was marginal, NK cell (NK1.1-expressing cells) population in spleens and bone marrows tended to decrease in curcumin-treated group, compared to that of vehicle-treated mice (Fig. S2). Based on the flow cytometry data that showed the majority of CD4+ T cells and whole splenocytes expressed H-2kb but not H-2kd, those cells from mice transplanted with curcumin- and vehicle-treated splenocytes almost originated from donor cells. And curcumin treatment on donor splenocytesTransfer of Curcumin-treated Splenocytes Protects Mice from Acute GVHD after Bone Marrow TransplantBecause curcumin significantly suppressed alloreactivity in vitro, we next assessed its effects in vivo using a murine model of acute GVHD. Severe acute GVHD occurred in all BALB/c (H-2kd) recipient mice undergoing bone marrow transplantation (BMT) and infusion of donor (B6 mice, H-2kb) splenocytes that were cultured with or without curcumin (10 mM). Using this strategy, we found that acute GVHD animals transplanted with curcuminTherapeutic Efficacy of Curcumin in Acute GVHDFigure 1. Curcumin inhibits alloreactive T cell responses and that is associated with downregulation of IFN-c and IL-17. (A) A total of 105 RBC-lysed C57BL/6 (B6) splenic T cells (responders) were incubated with 105 irradiated RBC-lysed B6 splenic T cells (syngenic stimulators) or BALB/ c splenic T cells (allogeneic stimulators) in an MLR. Curcumin was added on day 0, and T cell proliferation was measured by 3H-thymidine incorporation in each group. (B) The concentrations of IFN-c and IL-17 in culture supernatants (A) were measured by ELISA. Data are shown as mean 6 SD from at least 3 independent experiments. *P,0.05, **P,0.01, ***P,0.001. (C) A total of 105 RBC-lysed B6 splenic T cells (responders) were incubated with 105 irradiated and RBC-lysed B6 T cells (syngenic stimulators) or BALB/c splenic T cells (allogenic stimulators) in an MLR. Curcumin (2.5 mM) was added on day 0, and cells were harvested on day 4. Then, intracellular staining for IL-4, IFN-c, IL-17, and Foxp3 in isolated CD4+ T cells was performed and analyzed by flow cytometric analysis. The flow cytometry data that are shown in (C) is representative of three independent experiments. Bars are shown as mean 6 SD f.
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