Differentiation driven by granulocyte-macrophage colony-stimulating factor endows microglia with interferon-gamma-independent antigen presentation function.

The antigen presentation function of microglial cells was analyzed after differentiation in neonatal mouse brain cell cultures supplemented either with macrophage (M) or granulocyte/macrophage (GM) colony-stimulating factor (CSF). The cells separated from concomitant astrocytes in both culture systems turned out to exhibit cytological characteristics of macrophages and bore MAC-1 and F4/80 markers in a similar way. When comparatively tested for accessory cell function, only microglia developed with GM-CSF were able to efficiently induce antigen-directed proliferation of a series of helper T cell lines representing both the TH1 and TH2 subtype. Antigenic T cell activation by this microglia population was performed without prior stimulation and exceeded that of M-CSF-dependently grown microglial cells, even if those had been pretreated with interferon-gamma (IFN-gamma). In contrast to such difference in function, low cell surface expression of MHC class II or intercellular adhesion molecule-1 determinants proved to coincide in both populations. Correlating with the capacity for antigen presentation, expression of membrane-bound interleukin-1 (IL1)--a costimulatory signal for TH2 cells--was augmented significantly in GM-CSF-grown microglia. In parallel, the interaction only of this microglia population with a selected TH1 cell line was accompanied by maximal release of T cell-stimulating factor, a cytokine recently identified as an IL1-analogous second signal for TH1 cells. Thus, a developmental process is suggested which produces a form of microglia specialized in antigen presentation and thereby acting uncoupled from IFN-gamma.