1. A Small Aromatic Compound Has Antifungal Properties and Potential Anti-Inflammatory Effects against Intestinal Inflammation.
- Author
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Bortolus C, Billamboz M, Charlet R, Lecointe K, Sendid B, Ghinet A, and Jawhara S
- Subjects
- Animals, Anti-Inflammatory Agents administration & dosage, Anti-Inflammatory Agents chemistry, Antifungal Agents administration & dosage, Antifungal Agents chemistry, Benzaldehydes chemistry, Candida albicans drug effects, Candida albicans pathogenicity, Candidiasis microbiology, Disease Models, Animal, Epithelial Cells drug effects, Humans, Inflammation microbiology, Inflammation pathology, Intestines microbiology, Intestines pathology, Mice, Benzaldehydes administration & dosage, Candidiasis drug therapy, Inflammation drug therapy, Intestines drug effects
- Abstract
Resistance of the opportunistic pathogen Candida albicans to antifungal drugs has increased significantly in recent years. After screening 55 potential antifungal compounds from a chemical library, 2,3-dihydroxy-4-methoxybenzaldehyde (DHMB) was identified as having potential antifungal activity. The properties of DHMB were then assessed in vitro and in vivo against C. albicans overgrowth and intestinal inflammation. Substitution on the aromatic ring of DHMB led to a strong decrease in its biological activity against C. albicans . The MIC of DHMB was highly effective at eliminating C. albicans when compared to that of caspofungin or fluconazole. Additionally, DHMB was also effective against clinically isolated fluconazole- or caspofungin-resistant C. albicans strains. DHMB was administered to animals at high doses. This compound was not cytotoxic and was well-tolerated. In experimental dextran sodium sulphate (DSS)-induced colitis in mice, DHMB reduced the clinical and histological score of inflammation and promoted the elimination of C. albicans from the gut. This finding was supported by a decrease in aerobic bacteria while anaerobic bacteria populations were re-established in mice treated with DHMB. DHMB is a small organic molecule with antifungal properties and anti-inflammatory activity by exerting protective effects on intestinal epithelial cells., Competing Interests: The authors declare no conflict of interest.
- Published
- 2019
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