Contribution of the myeloperoxidase-dependent oxidative system to host defence against Cryptococcus neoformans

The in vivo contribution of reactive oxygen species produced by neutrophils against Cryptococcus infection is not widely recognized. Myeloperoxiclase (MPO) is a neutrophil-specific enzyme that catalyses the production of hypohalous acids such as HOCl from H2O2. This study investigated the role of MPO in immunological defence against Cryptococcus neoformans in an MPO-cleficient (MPO-/-) mouse model. The survival of IMPO-/- mice infected either intranasally or intravenously with C. neoformans was lower than that of identically challenged wild-type mice. The MPO-/- mice that received intranasal injection of C. neoformans had significantly larger lung fungal burdens than wild-type mice. On day 7, MPO-/- mice had a significantly higher lung concentration of interleukin (IL)-4 and lower concentrations of IL-2, IL-12p70 and interferon (IFN)-gamma than wild-type mice, suggesting a weak Th1 response in the IMPO-/- mice to C. neoformans. Pathologically, the MPO-1- mice with intranasal infection showed more severe pneumonia than wild-type mice, which was associated with an increase in the levels of IL-1 alpha/beta in the lungs. In addition, in MPO-/- mice, the pulmonary infection disseminated to the brain with occasional meningitis. The keratinocyte-clerived cytolkine (KC) level in the brain of infected MPO-/- mice was higher than that of control mice. Both intranasal and intravenous infections resulted in a higher number of fungi in the spleen of MPO-/- mice compared to wild-type, suggesting decreased resistance to C. neoformans not only in the lungs but also in the spleen in the absence of MPO. Taken together, these data suggest a major role of MPO in the response to cryptococcal infection.