BACKGROUND: Platelets were recently identified as a part of innate immunity. They are activated by contact with Aspergillus fumigatus; putative consequences include antifungal defense but also thrombosis, excessive inflammation, and thrombocytopenia. We aimed to identify those fungal surface structures that mediate interaction with platelets. METHODS: Human platelets were incubated with Aspergillus conidia and hyphae, isolated wall components, or fungal surface mutants. Interaction was visualized microscopically; activation was quantified by flow cytometry of specific markers. RESULTS: The capacity of A. fumigatus conidia to activate platelets is at least partly due to melanin, because this effect can be mimicked with "melanin ghosts"; a mutant lacking melanin showed reduced platelet stimulating potency. In contrast, conidial hydrophobin masks relevant structures, because an A. fumigatus mutant lacking the hydrophobin protein induced stronger platelet activation than wild-type conidia. A. fumigatus hyphae also contain surface structures that interact with platelets. Wall proteins, galactomannan, chitin, and β-glucan are not the relevant hyphal components; instead, the recently identified fungal polysaccharide galactosaminogalactan potently triggered platelet activation. CONCLUSIONS: Conidial melanin and hydrophobin as well as hyphal galactosaminogalactan represent important pathogenicity factors that modulate platelet activity and thus might influence immune responses, inflammation, and thrombosis in infected patients.
BACKGROUND: Platelets were recently identified as a part of innate immunity. They are activated by contact with Aspergillus fumigatus; putative consequences include antifungal defense but also thrombosis, excessive inflammation, and thrombocytopenia. We aimed to identify those fungal surface structures that mediate interaction with platelets. METHODS:Human platelets were incubated with Aspergillus conidia and hyphae, isolated wall components, or fungal surface mutants. Interaction was visualized microscopically; activation was quantified by flow cytometry of specific markers. RESULTS: The capacity of A. fumigatus conidia to activate platelets is at least partly due to melanin, because this effect can be mimicked with "melanin ghosts"; a mutant lacking melanin showed reduced platelet stimulating potency. In contrast, conidial hydrophobin masks relevant structures, because an A. fumigatus mutant lacking the hydrophobin protein induced stronger platelet activation than wild-type conidia. A. fumigatus hyphae also contain surface structures that interact with platelets. Wall proteins, galactomannan, chitin, and β-glucan are not the relevant hyphal components; instead, the recently identified fungal polysaccharidegalactosaminogalactan potently triggered platelet activation. CONCLUSIONS: Conidial melanin and hydrophobin as well as hyphal galactosaminogalactan represent important pathogenicity factors that modulate platelet activity and thus might influence immune responses, inflammation, and thrombosis in infectedpatients.
Authors: C Staerck; P Vandeputte; A Gastebois; A Calenda; S Giraud; N Papon; J P Bouchara; M J J Fleury Journal: Mycopathologia Date: 2017-06-21 Impact factor: 2.574
Authors: Christian W Remmele; Christian H Luther; Johannes Balkenhol; Thomas Dandekar; Tobias Müller; Marcus T Dittrich Journal: Front Microbiol Date: 2015-08-04 Impact factor: 5.640
Authors: Mark H T Stappers; Alexandra E Clark; Vishukumar Aimanianda; Stefan Bidula; Delyth M Reid; Patawee Asamaphan; Sarah E Hardison; Ivy M Dambuza; Isabel Valsecchi; Bernhard Kerscher; Anthony Plato; Carol A Wallace; Raif Yuecel; Betty Hebecker; Maria da Glória Teixeira Sousa; Cristina Cunha; Yan Liu; Ten Feizi; Axel A Brakhage; Kyung J Kwon-Chung; Neil A R Gow; Matteo Zanda; Monica Piras; Chiara Zanato; Martin Jaeger; Mihai G Netea; Frank L van de Veerdonk; João F Lacerda; António Campos; Agostinho Carvalho; Janet A Willment; Jean-Paul Latgé; Gordon D Brown Journal: Nature Date: 2018-02-28 Impact factor: 49.962