IntroductionIn the steady state, dendritic cells (DCs) capture self-antigens and maintain low expression of costimulatory molecules but nevertheless migrate to lymph nodes where they tolerize self-reactive T cells. [1][2][3][4][5][6][7] Physiologically arising apoptotic cells (ACs) are one significant source of self-antigens for DCs. 5,7 However, following their encounter with ACs, DCs can be rendered immunologically inert, immunosuppressive, or immunostimulatory. [8][9][10][11][12][13][14][15] These contradictory findings have been difficult to resolve due to the complexity of receptors on DCs and the model systems used (eg, ex vivo versus in vivo or rodent versus human sources of ACs).ACs are recognized and captured by human DCs via an array of receptors, including LOX-1, CD36, ␣v3, ␣v5, and the complement receptors (CRs) CR3 and CR4. 16 The precise contribution of individual receptors in the binding/uptake of ACs, the initiation of downstream signaling pathways, and cross-presentation of cellassociated antigens remains undefined. Blocking antibodies targeting individual receptors inhibit no more than 50% of the association with ACs, and CD36 Ϫ/Ϫ mice have no obvious defects in phagocytosis or in cross-presentation of antigens encoded within ACs, indicating a redundancy in the system and/or the incomplete characterization of AC receptors on DCs. [17][18][19][20] More recent studies have begun to evaluate the ability of specific AC receptors to modulate DC function. DCs exposed to ACs opsonized with C3bi fragments are inhibited from maturing upon stimulation with LPS or CD40L. This effect is presumably mediated through CR3 and CR4, the receptors for C3bi. 21 Studies of the scavenger receptor CD36 and the ␣v-integrin receptor CD51 have led to similar conclusions regarding their ability to modulate DC function. 12,22 However, it is not known whether such function extends to other members or components of the ␣v-integrin receptor family, particularly the well-established phagocytic receptor ␣v5. 17,23 Nor is it clear whether ligation of AC receptors that interfere with DC maturation consequently alters their T-cell-stimulating potential.To gain a better understanding of the phagocytic and immunomodulatory role of the various AC receptors on human DCs, we made use of an AC surrogate system 24 that permitted us to evaluate the function of individual AC receptors. We focused on ␣v5 and the CRs, especially CR3. We established that these different AC receptors are not equivalent in function, as might be presumed from published studies, but that there is a distinct division of labor, at least with respect to phagocytosis and tolerance induction potential. While ␣v5 mediates efficient phagocytosis, it does not interfere with the DC's capacity to undergo maturation or stimulate T cells. In contrast, engagement of CR3 (or CR4) inhibits the ability of DCs to undergo maturation, produce proinflammatory cytokines or M.Š . conceptualized, designed, and performed experiments; acquired, analyzed, and interpreted data; draft...
