Abstract
Macrophages are essential cells of the innate immune response against microbial infections, and they have the ability to adapt under both pro- and anti-inflammatory conditions and develop different functions. A growing body of evidence regarding a novel macrophage subpopulation that expresses CD3 has recently emerged. Here, we explain that human circulating monocytes can be differentiated into CD3(+)TCRαβ(+) and CD3(+)TCRαβ(-) macrophages. Both cell subpopulations express on their cell surface HLA family molecules, but only the CD3(+)TCRαβ(+) macrophage subpopulation co-express CD1 family molecules and transmembrane TNF (tmTNF). CD3(+)TCRαβ(+) macrophages secrete IL-1β, IL-6 IP-10, and MCP-1 by both tmTNF- and CD3-dependent pathways, while CD3(+)TCRαβ(-) macrophages specifically produce IFN-γ, TNF, and MIP-1β by a CD3-dependent pathway. In this study, we also used a mouse model of BCG-induced pleurisy and demonstrated that CD3(+) myeloid cells (TCRαβ(+) and TCRαβ(-) cells) are increased at the infection sites during the acute phase (2 weeks post-infection). Interestingly, cell increment was mediated by tmTNF, and the soluble form of TNF was dispensable. BCG-infection also induced the expression of TNF receptor 2 on CD3(+) myeloid cells, which increased after BCG-infection, suggesting that the tmTNF/TNFRs axis plays an important role in the presence or function of these cells in tuberculosis.