S, and graft rejection in transplantation. Although many efficient strategies have

S, and graft rejection in transplantation. Although many efficient strategies have been developed to treat autoimmune diseases and graft rejection, their severe side effects lead to an urgent need for novel therapeutic strategies, such as adoptive transfer of antigen-specific regulatory T cells [5]. As a result, investigation in the biology of regulatory T cells is crucial for understanding these diseases and the development of novel therapeutic strategies for treating and managing autoimmune diseases and graft rejections. It is known that activation and function of regulatory T cells require signals from both T cell receptor (TCR) [6] and CD28 [7,8]. However, as increasing number of co-stimulatory molecules, such as OX-40 and PD-1, were discovered to be implicated in the activation and function of regulatory T cells [9,10], it is speculatedthat co-stimulatory molecules may also play diverse and crucial roles in the activation and function of these cells [11]. Reports about the non-absolute requirement of TCR signal in T cell function further support this speculation [12,13]. As a result, investigation in the role of co-stimulatory molecules in regulatory T cells is warranted. Although toll-like receptors (TLR) are thought to mainly participate in the antigen recognition and activation of innate immune cells [14], they are also crucial costimulatory molecules involved in the function of T cells. In vitro data suggested that TLR2, 4, 5, 7, and 8 could promote the proliferation of CD4+ T cells [15,16], and compelling evidence from the experiment of Marsland et al. demonstrated that CpG DNA stimulation could activate CD4+ T cells from PKC-h2/2 mice and causing EAE, indicating that TLR stimulation could support the activation and differentiation of CD4+ T cells in the absence of TCR signaling [17]. TLRs are also involved in the activation and function of nTregs. Direct stimulation of mice CD4+ nTregs with TLR2 ligand Pam3Cys increased the proliferation and concomitantly abrogated the function of the cells [18,19], while stimulation of human nTregs with TLR4 ligand LPS and IL-2 up-regulated FOXP3 expression and the suppressive function [20]. In vivo result from TLR92/2 mice alsoTLR5 Enhances Induced Treg Proliferationsuggested that TLR9 signaling enhanced nTregs function through induction of IDO [21]. TLR5 is expressed in both CD4+ T cells and nTregs [22,23]. Since the TLR5 ligand, flagellin, is commonly expressed in different bacteria species [24,25], TLR5 23727046 may be particularly important to the induction of tolerance to intestinal commensal bacteria and of oral tolerance [26]. Currently, there is only a single report investigated on the direct effect of TLR5-related signals on human nTregs. Crellin et al. reported that stimulation of human nTregs with anti-CD3/CD28 and flagellin up-regulated FOXP3 expression and the suppressive function [27]. Since the direct effect of TLR5-related signals on iTregs remains unexamined, the function of TLR5 in human iTregs is investigated in this study. Previously our laboratory has developed a simple and cost effective novel protocol of large-scale in vitro induction and expansion of human alloantigen specific CD4hiCD25+ regulatory ?T cells 23727046 may be particularly important to the induction of tolerance to intestinal commensal bacteria and of oral tolerance [26]. Currently, there is only a single report investigated on the direct effect of TLR5-related signals on human nTregs. Crellin et al. reported that stimulation of human nTregs with anti-CD3/CD28 and flagellin up-regulated FOXP3 expression and the suppressive function [27]. Since the direct effect of TLR5-related signals on iTregs remains unexamined, the function of TLR5 in human iTregs is investigated in this study. Previously our laboratory has developed a simple and cost effective novel protocol of large-scale in vitro induction and expansion of human alloantigen specific CD4hiCD25+ regulatory ?T cells 17460038 with therapeutic potential from naive CD4+CD252CD45RO2 precursors using human allogeneic CD40-activated B cells as stimulators without the use of exogenous ?cytokine. Co-culture of human naive CD4+CD252 T cells with allogeneic CD40-activated B cells at T cell to B cell rat.