BACKGROUND: Oral candidiasis is a collective name for a group of disorders caused by the dimorphic fungus Candida albicans (C. albicans). Host defenses against C. albicans essentially fall into two categories: specific immune mechanisms and local oral mucosal epithelial cell defenses. The rationale of this study was to investigate the involvement of IL-18 in the inflammatory response against oral candidiasis. MATERIAL/ METHODS: We first used human oral mucosa tissue and saliva to assess the production of Il-18. Second, we engineered human oral mucosa using only normal human oral epithelial cells and fibroblasts. Tissues were infected with C. albicans at different time points. RESULTS: Tissue and saliva analyses demonstrated that constitutively produced and secreted IL-18 was up-regulated following Candida-infection. With our engineered model, we showed that C. albicans significantly increased the secretion of active IL-18 by infected epithelial cells. Interestingly, a significant secretion of IFNg functionally supported the up-regulation of active IL-18 in C. albicans-infected tissues. We also showed that rhIL-18 increased the expression and production of endogenous IL-18 and ICE in C. albicans-infected tissues, which was paralleled by a significant increase in IFNg secretion. CONCLUSIONS: These data suggest that (i) oral epithelial cells are involved in local host defenses against C. albicans infections, via IFNg induced-IL-18, and (ii) that IL-18 and IFNg secretions may be related to epithelial cells. Given that our experimental model closely mimics the natural interface between the oral mucosa and C. albicans, it appears that IL-18 meets the requirements of being a cytokine that epithelial cells use to control C. albicans infections.
BACKGROUND:Oral candidiasis is a collective name for a group of disorders caused by the dimorphic fungus Candida albicans (C. albicans). Host defenses against C. albicans essentially fall into two categories: specific immune mechanisms and local oral mucosal epithelial cell defenses. The rationale of this study was to investigate the involvement of IL-18 in the inflammatory response against oral candidiasis. MATERIAL/ METHODS: We first used human oral mucosa tissue and saliva to assess the production of Il-18. Second, we engineered human oral mucosa using only normal human oral epithelial cells and fibroblasts. Tissues were infected with C. albicans at different time points. RESULTS: Tissue and saliva analyses demonstrated that constitutively produced and secreted IL-18 was up-regulated following Candida-infection. With our engineered model, we showed that C. albicans significantly increased the secretion of active IL-18 by infected epithelial cells. Interestingly, a significant secretion of IFNg functionally supported the up-regulation of active IL-18 in C. albicans-infected tissues. We also showed that rhIL-18 increased the expression and production of endogenous IL-18 and ICE in C. albicans-infected tissues, which was paralleled by a significant increase in IFNg secretion. CONCLUSIONS: These data suggest that (i) oral epithelial cells are involved in local host defenses against C. albicansinfections, via IFNg induced-IL-18, and (ii) that IL-18 and IFNg secretions may be related to epithelial cells. Given that our experimental model closely mimics the natural interface between the oral mucosa and C. albicans, it appears that IL-18 meets the requirements of being a cytokine that epithelial cells use to control C. albicansinfections.
Authors: James S Griffiths; Giorgio Camilli; Natalia K Kotowicz; Jemima Ho; Jonathan P Richardson; Julian R Naglik Journal: Front Microbiol Date: 2021-02-10 Impact factor: 5.640