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  • Title: Malassezia colonisation on a reconstructed human epidermis: Imaging studies.
    Author: Pedrosa AF, Lisboa C, Branco J, Almeida AC, Mendes C, Pellevoisin C, Leite-Moreira A, Miranda IM, Rodrigues AG.
    Journal: Mycoses; 2019 Dec; 62(12):1194-1201. PubMed ID: 31556177.
    Abstract:
    BACKGROUND: Biofilm formation represents a major microbial virulence attribute especially at epithelial surfaces such as the skin. Malassezia biofilm formation at the skin surface has not yet been addressed. OBJECTIVE: The present study aimed to evaluate Malassezia colonisation pattern on a reconstructed human epidermis (RhE) by imaging techniques. METHODS: Malassezia clinical isolates were previously isolated from volunteers with pityriasis versicolor and seborrhoeic dermatitis. Yeast of two strains of M furfur and M sympodialis were inoculated onto the SkinEthic RHE. The tissues were processed for light microscopy, wide-field fluorescence microscopy and scanning electron microscopy. RESULTS: Colonisation of the RhE surface with aggregates of Malassezia yeast entrapped in a multilayer sheet with variable amount of extracellular matrix was unveiled by imaging techniques following 24, 48, 72 and 96 hours of incubation. Whenever yeast were suspended in RPMI medium supplemented with lipids, the biofilm substantially increased with a dense extracellular matrix in which the yeast cells were embedded. Slight differences were found in the biofilm architectural structure between the two tested species with an apparently higher entrapment and viscosity in M furfur biofilm. CONCLUSION: Skin isolates of M furfur and M sympodialis were capable of forming biofilm in vitro at the epidermal surface simulating in vivo conditions. Following 24 hours of incubation, without added lipids, rudimental matrix was barely visible, conversely to the reported at plastic surfaces. The amount of biofilm apparently increased progressively from 48 to 96 hours. A structural heterogeneity of biofilm between species was found.
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