Biochemical basis for the killing of Cryptococcus neoformans by rat peritoneal cells.

The biochemical basis of peritoneal cell cytotoxicity for Cryptococcus neoformans was studied by measuring the killing of the yeast by peritoneal resident cells and peritoneal exudate cells obtained from normal and proteose-peptone-injected animals, respectively. Both cell populations killed C. neoformans to an equivalent extent after 3 h incubation. Exudate cells showed anti-cryptococcal activity from the first hour of incubation, while no killing was observed with resident cells before 3 h. Both cell populations triggered a respiratory burst in response to opsonized C. neoformans as indicated by the fact that killing of the yeast was inhibited by scavengers of reactive oxygen intermediates (ROI). C. neoformans susceptibility to H2O2 and hydroxyl radicals in cell-free systems is demonstrated by incubating a yeast suspension with different concentrations of H2O2 and Fenton's reagents, respectively. These results suggest that oxygen metabolites play an active role in C. neoformans killing.

Lack of involvement of nitric oxide in the macrophage-mediated inhibition of spleen cell proliferation during experimental cryptococcosis.

We investigated the proliferative response to mitogens of spleen mononuclear (Spm) cells from Cryptococcus neoformans-infected rats. We determined reactive oxygen intermediates (ROI) and nitric oxide (NO) production by peritoneal and Spm cells, and evaluated the correlation of the proliferative response with NO and ROI production. The proliferative response of Spm cells from infected rats dramatically decreased at 14 and 21 days postinfection (PI). The unresponsiveness of Spm cells from 14-day infected rats was not abrogated by the addition of L-NAME and AG, indicating that NO is not involved in the antiproliferative response of experimental cells. When SOD, catalase, and indomethacin were added to the cultures, the suppression was still observed, indicating that ROI and prostaglandins are not involved in the unresponsiveness of lymphocytes. The proliferative response of lymphocytes from 14-day infected rats was significantly improved when cultures were made in the presence of Con A and exogenous IL-2. Additionally, a purified T-rich fraction from infected rats cultured with control macrophages recovered the normal proliferative response. This result indicates that macrophages from infected rats mediate the unresponsiveness of lymphocytes, probably by reducing the ability of lymphocytes to secrete IL-2.

Involvement of nitric oxide in protecting mechanism during experimental cryptococcosis.

In the present study we investigated the role of nitric oxide (NO) in the effector mechanisms of host defense against Cryptococcus neoformans in vivo. Our results showed an increase of NO produced by the peritoneal macrophages from 14-days infected rats compared with normal rats. These cells were capable of killing C. neoformans to a greater extent than macrophages from noninfected rats (80% vs 20%, respectively). The killing of C. neoformans by infected cells was efficiently inhibited (80% to 35%, P < 0.001) by adding aminoguanidine (AG) to the cultures. We observed that in vivo administration of AG to the infected animals efficiently inhibited the metabolism producing NO and failed to affect that of normal animals. When the NO synthase (NOS) was inhibited in vivo in the infected animals, a marked increase of the fungi charge in the organs was observed with respect to the normal animals treated with AG. We also observed that the course of the infection is drastically modified after the inhibition of NO production because all the animals infected and treated with AG died from cryptococcosis before 20 days postinfection (p.i.). These results indicate that NO is a crucial molecule in the effector mechanisms in this infection model.