Previous reports have demonstrated that natural killer (NK) cells are capable of inhibiting the growth of Cryptococcus neoformans in vitro, and recent studies indicate that adoptively transferred NK cell-enriched spleen cell populations enhance clearance of cryptococci from the tissues of cyclophosphamide-pretreated recipients. The primary objective of these studies was to confirm that NK cells participate in early clearance of C. neoformans in vivo. Secondarily, the anti-cryptococcal activities of polymorphonuclear leukocytes and macrophages were examined. Seven-week-old C57BL/6 bg/+ mice, which have normal levels of NK cell activity, were compared with their bg/bg littermates, which have impaired NK cell function. One and 3 days after injecting both groups of mice i.v. with 2 X 10(4) cryptococci, we assessed the NK cell activities in spleens, lungs, and livers and clearance of the organism from corresponding tissues as determined by the mean log10 numbers of cryptococcal colony-forming units (CFU) per organ. Three days postinfection, the mean numbers of cryptococcal CFU in lungs and spleens of bg/+ mice were significantly lower than in the corresponding organs of bg/bg mice. NK cell activities in spleens and lungs of bg/+ mice were significantly higher than were the NK cell activities in similar cell populations from bg/bg mice. In contrast, the mean numbers of cryptococcal CFU in livers of the two groups of animals were nearly equivalent, a situation not unexpected, since liver NK cell activities were extremely low and similar in both groups of animals. Although these data indicated a correlation between early clearance of cryptococci from tissues and levels of NK cell activities in the corresponding tissues, it was also possible that differences in phagocytic cell function between the bg/+ and bg/bg animals could account for the observed differences in clearance of cryptococci from the tissues. Therefore, phagocytic cells from the two groups of animals were compared with respect to their abilities to phagocytize and inhibit the growth of cryptococci and to their abilities to respond to chemotactic stimuli in vivo. Peritoneal PMNL from bg/+ and bg/bg mice were similar in their abilities to phagocytize and inhibit the growth of cryptococci, as well as in their chemotactic responses to viable cryptococci or sodium caseinate. In addition, there were no differences in splenic macrophage functions between the two groups of mice.(ABSTRACT TRUNCATED AT 400 WORDS)