Abstract

Adherence of microbial pathogens to host cell surfaces may involve hydrophobic interactions. Here, we describe the development of an assay for detecting cell surface hydrophobicity of populations and individual cells of the opportunistic fungal pathogen Candida albicans. The assay involves mixing polystyrene latex microspheres with cells and subsequent enumeration of cell-attached microspheres. Similar levels of hydrophobicity within a population of yeast cells were obtained with the microsphere assay and with a commonly used aqueous-hydrocarbon biphasic partitioning assay. Various buffers were found to support detection of surface hydrophobicity with the microsphere assay. Complex fungal growth media did not. Serum in test media prevented microsphere attachment. A unique advantage of the assay compared to others is that individual cells can be assessed for surface hydrophobicity. Within a population of C. albicans yeast cells, strongly, moderately and weakly hydrophobic cells were observed. Within some pairs of mother-daughter cells, only one cell was hydrophobic. Germ tbes and hyphae were hydrophobic regardless of the hydrophobic status of the parent cell. These results indicate that the microsphere assay is a useful test evaluating cell surface hydrophobicity of C. albicans.

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