Abstract
There is currently much interest in how different APC subsets shape the immune response. We recently described a division of labor between classical dendritic cells (cDC) and inflammatory monocyte-derived APC in provision of costimulatory ligands to T cells early during chronic lymphocytic choriomeningitis clone 13 (LCMV 13) infection in mice. At day 2 of LCMV 13 infection, cDC preferentially express CD80 and CD86, whereas TNF superfamily ligands GITRL, 4-1BBL, CD70, and OX40L are preferentially induced by type I IFN on inflammatory monocyte-derived APC, with minimal expression on cDC. In this study, we further investigate the expression of TNF and B7 family ligands on APC over the course of LCMV 13 infection. OX40L and 4-1BBL remain above baseline through the chronic stage of infection, with predominant expression on inflammatory APC compared with cDC in the spleen, partially blocked by anti-IFN-γR Ab pretreatment. Conversely, CD70, like GITRL, returns to baseline on the APC within a few days postinfection. In the lung, TNF family ligands were also preferentially expressed on inflammatory monocyte-derived APC. CD86 was generally higher on cDC than inflammatory APC in the spleen, but in the lung CD86 was highest on inflammatory APC. Moreover, in the spleen, CD80 levels on different APC subsets fluctuated over the course of the infection. We also show that LPS induction of TNF superfamily ligands is largely mediated through type I IFN. This study highlights the importance of IFNs and monocyte-derived APC in TNF superfamily ligand expression in both secondary lymphoid organs and tissues during chronic viral infection.