1. A novel class of Candida glabrata cell wall proteins with β-helix fold mediates adhesion in clinical isolates.
- Author
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Reithofer V, Fernández-Pereira J, Alvarado M, de Groot P, and Essen LO
- Subjects
- Biofilms growth & development, Candida glabrata metabolism, Candida glabrata pathogenicity, Cell Adhesion, Cell Adhesion Molecules chemistry, Cell Adhesion Molecules genetics, Cell Adhesion Molecules metabolism, Cell Wall metabolism, Fungal Proteins genetics, Fungal Proteins metabolism, Humans, Models, Molecular, Virulence Factors, Candida glabrata genetics, Candidiasis microbiology, Fungal Proteins chemistry
- Abstract
Candida glabrata is an opportunistic pathogenic yeast frequently causing infections in humans. Though it lacks typical virulence factors such as hyphal development, C. glabrata contains a remarkably large and diverse set of putative wall adhesins that is crucial for its success as pathogen. Here, we present an analysis of putative adhesins from the homology clusters V and VI. First, sequence similarity network analysis revealed relationships between cluster V and VI adhesins and S. cerevisiae haze protective factors (Hpf). Crystal structures of A-regions from cluster VI adhesins Awp1 and Awp3b reveal a parallel right-handed β-helix domain that is linked to a C-terminal β-sandwich. Structure solution of the A-region of Awp3b via single wavelength anomalous diffraction phasing revealed the largest known lanthanide cluster with 21 Gd3+ ions. Awp1-A and Awp3b-A show structural similarity to pectate lyases but binding to neither carbohydrates nor Ca2+ was observed. Phenotypic analysis of awp1Δ, awp3Δ, and awp1,3Δ double mutants did also not confirm their role as adhesins. In contrast, deletion mutants of the cluster V adhesin Awp2 in the hyperadhesive clinical isolate PEU382 demonstrated its importance for adhesion to polystyrene or glass, biofilm formation, cell aggregation and other cell surface-related phenotypes. Together with cluster III and VII adhesins our study shows that C. glabrata CBS138 can rely on a set of 42 Awp1-related adhesins with β-helix/α-crystallin domain architecture for modifying the surface characteristics of its cell wall., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2021
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