Study of Participation of 2-integrin in the Phagocytic and Microbicidal Activities of Alveolar and Peritoneal Macrophages in the Histoplasmosis

Histoplasma capsulatum (H. capsulatum) is a pathogenic dimorphic fungus and its infection is characterized by accumulation of leukocytes and granuloma formation. Infection occurs mainly by fungal inhalation that reaches the alveoli, which became yeast (the pathogenic form). in the immune response of host, integrins participate in phagocytic mechanisms, fundamental in the response against histoplasmosis.,8^2-integrin has a 02 chain known as CD18, usual to many adhesion molecules, and a variable a chain. Until the moment, it was identified four variable a chains: aL, that constitutes the dimer aL,82, also known as LFA-1 (leukocyte function antigen) or CD11aCD18; am forming the a^m,B^2 or Mac-1 (macrophage differentiation antigen 1) and CR3 (complement receptor 3) and CD11bCD18; ax, constituting the dimer Able CD11cCD18, gp150, 95 or CR4 (complement receptor 4) and ad chain, that constitutes a^d,8^2, CD11dCD18. In the present study, we sought to investigate the effect of CD18 in alveolar (AMs) and peritoneal macrophages (PMs) effecter functions against H. capsulatum and the relation of LTB^4 in those responses. We confirm that AMs and PMs of CD18\'°^W mice have low expression of ,32-integrin compared to wild type mice (WT). We demonstrate that, as expected, AMs and PMs from WT and CD18\'°^W, phagocytosed more complement (C)-opsonized yeasts than the unopsonized yeasts. Surprisingly, AMs from CD18\'°^Wmice phagocytosed 136% more (C)-opsonized yeasts than AMs obtained from WT. Also, PMs of CD18^b°^W mice phagocytosed 240% more (C)-opsonized yeasts than PMs of WT. The addition of LTB^4, increases the phagocytic activity by AMs of WT mice in 520% and by AMs from CD18\'°^W mice in 200%, while the addition of LTB^4 only increased the phagocytosis of C-opsonized H. capsulatum by PMs of C57BL/6 mice in 600%, when compaired with PMs from CD18\'°^W mice. This phenomenon was inhibited by pretreatment of these cells with an especific BLT1 receptor antagonist only in PMs from C57BU6 mice. The addition of LTB^4 in the culture of MPs reduced the percentage of death of yeasts in animals C57BL/6. CD18\'°^W mice, spontaneously produce more LTB^4 and showed a large increase in the production of nitric oxide when compared to C57BU6. Patients affected by Chronic Granulomatous Disease (DGC) have congenital deficiency of the CD18 molecule. Phagocytic cells isolated from peripheral blood of patients with DGC were incubated with C-opsonized yeasts and as well as macrophages from CD18\'°^W, phagocytosed more C-opsonized yeasts (900%) or not (300%) when compared with cells from healthy individuals.Therefore, we suggest that the CD18 molecule has important participation in the effector mechanisms of innate immunity, a mechanism dependent on lipid mediators such as LTB^4, to control these mechanisms in defense against H. capsulatum. (AU)