Whereas infections of macrophages by promastigote forms of Leishmania mexicana pifanoi induce the production of superoxide, infections by amastigotes barely induce superoxide production. Several approaches were employed to gain insight into the mechanism by which amastigotes avoid eliciting superoxide production. First, in experiments with nitroblue tetrazolium, we found that 25% of parasitophorous vacuoles (PVs) that harbor promastigotes are positive for the NADPH oxidase complex, in contrast to only 2% of PVs that harbor amastigotes. Second, confocal microscope analyses of infected cells labeled with antibodies to gp91 phox revealed that this enzyme subunit is found in PVs that harbor amastigotes. Third, in immunoblots of subcellular fractions enriched with PVs from amastigote-infected cells and probed with antibodies to gp91 phox , only the 65-kDa premature form of gp91 phox was found. In contrast, subcellular fractions from macrophages that ingested zymosan particles contained both the 91-and 65-kDa forms of gp91 phox . This suggested that only the immature form of gp91 phox is recruited to PVs that harbor amastigotes. Given that gp91 phox maturation is dependent on the availability of heme, we found that infections by Leishmania parasites induce an increase in heme oxygenase 1 (HO-1), the rate-limiting enzyme in heme degradation. Infections by amastigotes performed in the presence of metalloporphyrins, which are inhibitors of HO-1, resulted in superoxide production by infected macrophages. Taken together, we propose that Leishmania amastigotes avoid superoxide production by inducing an increase in heme degradation, which results in blockage of the maturation of gp91 phox , which prevents assembly of the NADPH oxidase enzyme complex.Leishmania spp. are dimorphic parasites that cause a spectrum of clinical presentations, ranging from cutaneous lesions to infection of visceral organs, in immunocompetent hosts. In the Americas, cutaneous and diffuse cutaneous leishmaniasis are often caused by parasites of the Leishmania mexicana complex (Leishmania amazonensis and Leishmania pifanoi). Infections with these parasites exhibit a limited tendency to selfresolve, which suggests the expression of mechanisms to resist elimination by the host.Several studies have assessed whether infection of macrophages with Leishmania results in the production of superoxide. Taken together, the conclusions of those studies paint a mixed picture. A majority of studies have shown that there is limited superoxide production when macrophages are incubated with L. donovani promastigotes (4, 10, 16). Studies with promastigotes of another Leishmania species, Leishmania major, have sometimes shown that infection with these parasites triggers superoxide production by macrophages (13,21,26). However, when purified metacyclic L. major promastigotes were employed, compared to unselected stationary stage parasites, metacyclic promastigotes elicited minimal superoxide production by macrophages (13). Studies with Leishmania
