5b): 36% of activated Treg cells expressed SD-4, with more Treg cells (53%) expressing JQ1 PD-1. Finally, we assayed the ability of SD-4+/+ versus SD-4−/− Treg cells to suppress T-cell activation (Fig. 6). Varying numbers of CD4+ CD25+ Treg cells purified from spleens of naive WT or KO mice were co-cultured with CFSE-labelled CD4+ CD25neg Tconv cells in the presence of anti-CD3 antibody and irradiated APC. T-cell proliferation was assayed by CFSE dilution. Without Treg cells, 60% of Tconv cells proliferated. As expected, SD-4+/+ Treg cells inhibited
this proliferation in a dose-dependent manner (down to 13% proliferation), and SD-4−/− Treg cells exhibited similar inhibitory capacity at every dose tested. These results show that SD-4 deficiency has little or no influence on Treg-cell function, thereby supporting the idea that exacerbation of GVHD by infusion of SD-4−/− T cells is primarily the result of augmented reactivity of Tconv cells to APC co-stimulation. SD-4 belongs to the SD family of transmembrane receptors heavily laden with heparan sulphate chains consisting of alternating disaccharide residues.[25] Because these heparan sulphate chains bind to a variety of proteins, including growth factors, cytokines, chemokines and extracellular matrices,[26] SD-4 can participate in a wide range of physiological and pathological
conditions. Indeed, SD-4 is known to play important roles in cell matrix-mediated and growth factor-mediated signalling
NVP-AUY922 molecular weight events.[27] SD-4-deficient mice may appear normal, but respond to intentional wounding with delayed repair, impaired angiogenesis, and poor focal adhesion of cells to matrix.[28] SD-4 also regulates immune responses: when given endotoxin, SD-4 KO mice succumb more readily to shock than WT controls;[29] SD-4 on B cells triggers formation of dendritic processes, which facilitate these cells’ interaction with other immune cells.[30] Our studies constitute the first evidence showing SD-4 on T cells to regulate the activation of allo-reactive T cells in GVHD. All the results using SD-4 KO mice unambiguously indicate SD-4 on T cells to be the sole DC-HIL ligand responsible for mediating its T-cell-inhibitory function (SD-4−/− T cells did not /www.selleck.co.jp/products/Fasudil-HCl(HA-1077).html bind DC-HIL nor did they react to DC-HIL’s inhibitory function), with one exception: DC-HIL-Fc treatment up-regulated cytokine production by SD-4−/− CD4+ T cells (compared with SD-4+/+ CD4+ T cells) following in vitro anti-CD3 stimulation (Fig. 2e). Because DC-HIL binds not only to a peptide sequence of SD-4 but also to saccharide (probably heparan sulphate or other structurally related saccharides),[6, 12] we speculate that absence of SD-4 and APC may restrict DC-HIL interaction exclusively to saccharides on T cells, thereby producing effects independent of SD-4.