Fungicidal and secretory ability of alveolar macrophages from susceptible and resistant mice infected with P. brasiliensis

Previous studies in our laboratory characterized B10.A and A/J mice as susceptible and resistant strains to pulmonary Paracoccidioides brasiliensis infection. Innate immunity plays a fundamental role on the control of the initial growth of pathogens as well as in the acquired immunity that subsequently develops. As alveolar macrophages are the first host cells to interact with P. brasiliensis we decided to study the fungicidal and secretory ability of alveolar macrophages from resistant and susceptible mice to P. brasiliensis to better understand the pulmonary model of paracoccidioidomycosis. Normal B10.A and A/J mice (n=10-15) were submitted to bronchoalveolar lavage (BAL) and cell suspensions (2x105 cells/well) were pre-activated ovemight with IFN-γ, IL-12 or the combination of these two cytokines (50,000, 10,000 and 2,000 pg/rnL). After that, macrophages were in vitro challenged with P. brasiliensis yeasts (1:50 fungus: macrophage ratio) and 72h later fungicidal activity was determined by colony forming units counts (CFU). Nitrite and cytokines production were determined in culture supematants by Griess reaction and ELISA, respectively. Data were expressed as means ± SE and analyzed by Student\'s t test. Our results showed that B10.A macrophages pre-activated with the different assayed concentrations of IFNγ, IL-12 or both cytokines presented elevated fungicidal ability (51¬-97%) concomitant with the presence of high levels of NO, IL-12 and MCP-l and low amounts of IL-10 and GM-CSF. NO synthesis occurred in low levels but high concentrations of IL-10 and GM-CSF associated to low amounts of IL-12 and MCP-1 were detected in the co-cultures supematants. NO synthesis inhibition by aminoguanidine clearly showed that the fungicidal ability of B10.A but not of A/J macrophages was NO¬ dependent. Treatment with anti-IL-10 monoclonal antibodies did not alter the fungicidal ability of macrophages from both mouse strains but enhanced NO synthesis which, however, did not alter the absent microbicidal ability of A/J macrophages. On the contrary, anti-TGF-β treatment induced an increased fungicidal ability of A/J cells associated with enhanced levels of NO and TNF-α besides diminished amounts of IL-10. The same treatment did not alter the high fungicidal ability of B10.A alveolar macrophages but increased NO, IL-12 and TNF-α production. In conclusion, alveolar macrophages from susceptible mice are easily activated by IFNγ and IL-12, present a high and NO-dependent ability to kill P. brasiliensis yeasts and secrete elevated levels of NO and IL-12. In contrast, alveolar macrophages from resistant mice are poorly activated by IFNγ and IL¬12, secrete low amounts of NO and high of IL-10. Their fungicidal ability which appears to be NO-independent can be restored by neutralization of endogenous TGF-β but not by anti-IL-10 treatment. (AU)