Abstract
T‐cell activation is regulated by binding of ligands on APC to corresponding receptors on T cells. In mice, we discovered that binding of DC‐HIL on APC to syndecan‐4 (SD‐4) on activated T cells potently inhibits T‐cell activation. In humans, we now show that DC‐HIL also binds to SD‐4 on activated T cells through recognition of its heparinase‐sensitive saccharide moiety. DC‐HIL blocks anti‐CD3‐induced T‐cell responses, reducing secretion of pro‐inflammatory cytokines and blocking entry into the S phase of the cell cycle. Binding of DC‐HIL phosphorylates SD‐4's intracellular tyrosine and serine residues. Anti‐SD‐4 Ab mimics the ability of DC‐HIL to attenuate anti‐CD3 response more potently than Ab directed against other inhibitory receptors (CTLA‐4 or programmed cell death‐1). Among leukocytes, DC‐HIL is expressed highest by CD14^+^ monocytes and this expression can be upregulated markedly by TGF‐β. Among APC, DC‐HIL is expressed highest by epidermal Langerhans cells, an immature type of dendritic cells. Finally, the level of DC‐HIL expression on CD14^+^ monocytes correlates inversely with allostimulatory capacity, such that treatment with TGF‐β reduced this capacity, whereas knocking down the DC‐HIL gene augmented it. Our findings indicate that the DC‐HIL/SD‐4 pathway can be manipulated to treat T‐cell‐driven disorders in humans.