Trypacidin, a spore-borne toxin from Aspergillus fumigatus, is cytotoxic to lung cells.
2012
Gauthier , Thierry (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire) | wang , Xiaodi (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire) | SIFUENTES DOS SANTOS , JOICE (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire) | Fysikopoulos , Athanasios (Institut National de la Recherche Agronomique, 31027 Toulouse(France).) | Tadrist , Souria(collaborateur) (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire) | Canlet , Cecile (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire) | Artigot , Marie-Pierre (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire) | Loiseau , Nicolas (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire) | Oswald , Isabelle (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire) | Puel , Olivier(auteur de correspondance) (INRA , St-Martin-Du-Touch (France). UMR 1331 Toxicologie Alimentaire)
Inhalation of Aspergillus fumigatus conidia can cause severe aspergillosis in immunosuppressed people. A. fumigatus produces a large number of secondary metabolites, some of which are airborne by conidia and whose toxicity to the respiratory tract has not been investigated. We found that spores of A. fumigatus contain five main compounds, tryptoquivaline F, fumiquinazoline C, questin, monomethylsulochrin and trypacidin. Fractionation of culture extracts using RP-HPLC and LC-MS showed that samples containing questin, monomethylsulochrin and trypacidin were toxic to the human A549 lung cell line. These compounds were purified and their structure verified using NMR in order to compare their toxicity against A549 cells. Trypacidin was the most toxic, decreasing cell viability and triggering cell lysis, both effects occurring at an IC₅₀ close to 7 µM. Trypacidin toxicity was also observed in the same concentration range on human bronchial epithelial cells. In the first hour of exposure, trypacidin initiates the intracellular formation of nitric oxide (NO) and hydrogen peroxide (H₂O₂). This oxidative stress triggers necrotic cell death in the following 24 h. The apoptosis pathway, moreover, was not involved in the cell death process as trypacidin did not induce apoptotic bodies or a decrease in mitochondrial membrane potential. This is the first time that the toxicity of trypacidin to lung cells has been reported.
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