Carlos Pelleschi Taborda scite author profile

Superoxide dismutase (SOD) is an enzyme that converts superoxide radicals into hydrogen peroxide and molecular oxygen and has been shown to contribute to the virulence of many human-pathogenic bacteria through its ability to neutralize toxic levels of reactive oxygen species generated by the host. SOD has also been speculated to be important in the pathogenesis of fungal infections, but the role of this enzyme has not been rigorously investigated. To examine the contribution of SOD to the pathogenesis of fungal infections, we cloned the Cu,Zn SOD-encoding gene (SOD1) from the human-pathogenic yeast Cryptococcus neoformans and made mutants via targeted disruption. The sod1 mutant strains had marked decreases in SOD activity and were strikingly more susceptible to reactive oxygen species in vitro. A sod1 mutant was significantly less virulent than the wild-type strain and two independent reconstituted strains, as measured by cumulative survival in the mouse inhalational model. In vitro studies established that the sod1 strain had attenuated growth compared to the growth of the wild type and a reconstituted strain inside macrophages producing reduced amounts of nitric oxide. These findings demonstrate that (i) the Cu,Zn SOD contributes to virulence but is not required for pathogenicity in C. neoformans; (ii) the decreased virulence of the sod1 strain may be due to increased susceptibility to oxygen radicals within macrophages; and (iii) other antioxidant defense systems in C. neoformans can compensate for the loss of the Cu,Zn SOD in vivo.Invasive fungal infections in humans are increasing in prevalence in parallel with the growing population of immunocompromised patients. There is a need for new antifungal drugs to treat these infections since the drugs currently available are either excessively toxic or lack broad fungicidal properties. Studies on the pathogenesis of fungal infections should provide insights that can help with the diagnosis and treatment of these important human diseases. Cryptococcus neoformans is a basidiomycetous yeast that has been used successfully as a model pathogenic fungus in a variety of molecular pathogenesis studies. We used C. neoformans to evaluate the contribution of superoxide dismutase (SOD) to the pathogenesis of fungal infections.SODs are metalloenzymes that detoxify oxygen radicals through the conversion of superoxide to hydrogen peroxide and oxygen (20). These enzymes are present in virtually all cells, and this very high degree of conservation is testament to their importance in cellular homeostasis. The primary role of SODs is to protect cells from endogenously generated superoxide anion, which is a by-product of normal aerobic respiration. SODs can be complexed with iron, manganese, and copper plus zinc. The iron and manganese SODs are genetically similar to each other, whereas the Cu,Zn SOD exhibits no significant homology with the other two enzymes (16,20,21,32). Eukaryotic cells generally contain an Mn SOD in the mitochondrial matrix and a Cu,Zn SOD which is located pre...

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Mortality due to systemic mycoses as a primary cause of death or in association with AIDS in Brazil: a review from 1996 to 2006

Prado

Silva

Laurenti

et al. 2009

Mem. Inst. Oswaldo Cruz

213

149

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CR3 (CD11b/CD18) and CR4 (CD11c/CD18) Are Involved in Complement-Independent Antibody-Mediated Phagocytosis of Cryptococcus neoformans

2002

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IgM and IgA to the Cryptococcus neoformans capsular glucuronoxylomannan (GXM) promote complement-independent phagocytosis by macrophages with efficiency comparable to that of IgG1. IgM- and IgA-mediated phagocytosis of C. neoformans was proportional to CR3 expression, inhibited by Abs to CR3 (CD11b/CD18) and CR4 (CD11c/CD18), and dramatically reduced with macrophages of CD18-deficient mice. IgM and IgA promoted ingestion of yeast cells by CHO cells expressing CR3 and CR4. In contrast, IgG1-mediated phagocytosis was only partially inhibited by Abs to CR3 and CR4. Phagocytosis by IgM and IgA but not IgG1 was inhibited by soluble GXM, which binds CD18. Involvement of CR in antibody-mediated complement-independent phagocytosis indicates a new link between innate and adaptive immune systems.

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