Abstract
ABSTRACT The opportunistic human fungal pathogen Candida albicans can cause a variety of diseases, ranging from superficial mucosal infections to life-threatening systemic infections. Phagocytic cells of the innate immune response, such as neutrophils and macrophages, are important first-line responders to an infection and generate reactive oxygen and nitrogen species as part of their protective antimicrobial response. During an infection, host cells generate nitric oxide through the enzyme inducible nitric oxide synthase (iNOS) to kill the invading pathogen. Inside the phagocyte, iNOS competes with the enzyme arginase-1 for a common substrate, the amino acid l-arginine. Several pathogenic species, including bacteria and parasitic protozoans, actively modulate the production of nitric oxide by inducing their own arginases or the host’s arginase activity to prevent the conversion of l-arginine to nitric oxide. We report here that C. albicans blocks nitric oxide production in human-monocyte-derived macrophages by induction of host arginase activity. We further determined that purified chitin (a fungal cell wall polysaccharide) and increased chitin exposure at the fungal cell wall surface induces this host arginase activity. Blocking the C. albicans-induced arginase activity with the arginase-specific substrate inhibitor Nω-hydroxy-nor-arginine (nor-NOHA) or the chitinase inhibitor bisdionin F restored nitric oxide production and increased the efficiency of fungal killing. Moreover, we determined that C. albicans influences macrophage polarization from a classically activated phenotype toward an alternatively activated phenotype, thereby reducing antimicrobial functions and mediating fungal survival. Therefore, C. albicans modulates l-arginine metabolism in macrophages during an infection, potentiating its own survival.
Highlights
The opportunistic human fungal pathogen Candida albicans can cause a variety of diseases, ranging from superficial mucosal infections to life-threatening systemic infections
C. albicans significantly increased both inducible nitric oxide synthase (iNOS) and arginase-1 (Arg-1) protein expression, the total increase in protein level was higher for Arg-1 (7.43fold Ϯ 1.61-fold) than for iNOS (1.21-fold Ϯ 0.05-fold)
We show that the human-pathogenic fungus C. albicans alters macrophage nitric oxide production by affecting host arginase-1 expression and activity
Summary
The opportunistic human fungal pathogen Candida albicans can cause a variety of diseases, ranging from superficial mucosal infections to life-threatening systemic infections. We show here that the human opportunistic fungal pathogen Candida albicans influences L-arginine availability for nitric oxide production by induction of the substrate-competing host enzyme arginase-1. This led to a reduced production of nitric oxide and, reduced eradication of the fungus by human macrophages. Disturbed, in patients experiencing severe trauma or surgery, immunocompromised individuals, or those undergoing immunosuppressive therapies, C. albicans is a frequent cause of mucocutaneous or disseminated infections [2] Phagocytic cells, such as macrophages and neutrophils, are important mediators of innate immunity and are responsible for developing a robust antimicrobial response after recognition and ingestion of pathogens [3]. The critical interplay between arginase-1 and iNOS is important in influencing the outcome of an infection, and several pathogens have been shown to regulate this important pathway either by modulating L-arginine availability through induction of host arginases or by using their own arginases to metabolize host L-arginine (reviewed in reference 4)
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