Plasmacytoid dendritic cells (pDCs) are known mainly for their secretion of type I IFN upon viral encounter. We describe a CD2 hi CD5 + CD81 + pDC subset, distinguished by prominent dendrites and a mature phenotype, in human blood, bone marrow, and tonsil, which can be generated from CD34 + progenitors. These CD2 hi CD5 + CD81 + cells express classical pDC markers, as well as the toll-like receptors that enable conventional pDCs to respond to viral infection. However, their gene expression profile is distinct, and they produce little or no type I IFN upon stimulation with CpG oligonucleotides, likely due to their diminished expression of IFN regulatory factor 7. A similar population of CD5 + CD81 + pDCs is present in mice and also does not produce type I IFN after CpG stimulation. In contrast to conventional CD5 − CD81 − pDCs, human CD5 + CD81 + pDCs are potent stimulators of B-cell activation and antibody production and strong inducers of T-cell proliferation and Treg formation. These findings reveal the presence of a discrete pDC population that does not produce type I IFN and yet mediates important immune functions previously attributed to all pDCs.P lasmacytoid dendritic cells (pDCs) are a distinct lineage of bone-marrow-derived cells that reside mainly in blood and lymphoid organs in the steady state, but can also be found in sites of infection, inflammation, and cancer (1). As one of the two principal lineages of dendritic cells, pDCs diverge from conventional DCs (cDCs) during maturation in the bone marrow and are recognized mainly for their rapid and massive production of type I IFN (IFNα/β) in response to viral infection (2). Although generally viewed as weak antigen-presenting cells by comparison with cDCs, pDCs interact with many types of cells, such as NK cells, cDCs, T cells, and B cells through their secretion of cytokines and chemokines in addition to type I IFN, as well as through their expression of various costimulatory molecules (3, 4). Thus, pDCs are capable of activating CD4 + helper and regulatory T cells and CD8 + cytotoxic T cells (5-16). They can also stimulate B-cell activation, differentiation into plasma cells, and antibody production through mechanisms that are not yet completely understood (17)(18)(19)(20)(21)(22).Whether the diverse functions of pDCs are mediated by the same cells responding to different environmental cues or by distinct preprogrammed subsets or lineages is not clear, although several reports suggest the existence of phenotypically distinct subpopulations of pDCs in mice (23-25) and humans (26-30). Surface expression of CD2 divides human pDCs into two distinct subsets. Whereas both CD2 lo and CD2 hi pDCs produce type I IFN, the CD2 hi subset secretes more IL12p40, triggers more T-cell proliferation (26), and is relatively resistant to apoptosis on the basis of higher BCL2 expression (28). Here we show that CD2 hi pDCs contain a unique subpopulation that expresses CD5 and CD81. Unlike CD2 hi CD5 − CD81 − pDCs, CD2 hi CD5 + CD81 + pDCs fail to produce type 1 IFN but ...
