MHC class II and CD40 play opposing roles in dendritic cell survival.

In contrast to very immature dendritic cells (DC), mature DC are largely resistant to death by CD95 (CD95/APO-1) ligation. Investigation of other potential death-inducing ligands showed that mature DC were instead highly susceptible to apoptosis induced by cross-linking of MHC class II. Thus, increasing DC maturity correlates with increased resistance to CD95 killing, but an increased susceptibility to class II-mediated killing. Anti-I-A/I-E monoclonal antibodies (mAb) induced rapid (<2 h) apoptotic cell death in mature epidermal, spleen and bone marrow-derived DC, as determined by annexin/propidium iodide staining, morphological changes, decreased diploidy and loss in mitochondrial membrane potential. Although full class II-mediated killing required DC cytoskeletal motion, divalent cations and phosphatase activity, neither caspase activation, respiration, RNA or protein synthesis, NO production, nor CD95:CD95L interactions were required. Strikingly, DC pretreated by CD40 mAb cross-linking, but not by lipopolysaccharide or TNF-alpha, were completely resistant to class II-mediated killing. CD40-mediated protection was reduced in the presence of the SB202190 inhibitor of the mitogen-activated protein kinase p38 pathway, but appeared to be independent of p42/44 extracellular signal-related kinase or NF-KB activation. Our findings show that in addition to its role as an activator of antigen-presenting cell function, CD40 provides an important counter-signal against class II-induced apoptosis. Thus, these data point to an important role of the T cell in regulating DC survival.