Candida albicans HWP1 gene expression and host antibody responses in colonization and disease

Naglik, Julian R.; Fostira, Florentia; Ruprai, Jasmeet; Staab, Janet F.; Challacombe, Stephen; Sundstrom, Paula

doi:10.1099/jmm.0.46737-0

Cited by 86 publications

(74 citation statements)

References 17 publications

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“…The resulting association would be shear resistant, extremely close, and permanent in the absence of proteolysis. Such interactions could underlie the clinical observation that oropharyngeal colonies of C. albicans resist removal by scraping (89).…”

Section: Other Adhesins Of C Albicansmentioning

confidence: 99%

“…These adhesins mediate two types of interaction, which can be thought of as "social" and "antisocial." The former type is represented by intraspecific interactions in mating and differentiation, such as those mediated by the Saccharomyces cerevisiae agglutinins and Coprinus galectins (78,128), as well as formation of colonies and biofilms that adhere to and invade substrata (41,42,71,89,91,110,137,142). On the other hand, those interactions we call "antisocial" are typical of pathogen binding to host organisms.…”

Section: Introductionmentioning

confidence: 99%

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A Biochemical Guide to Yeast Adhesins: Glycoproteins for Social and Antisocial Occasions

Dranginis

Rauceo

Coronado

et al. 2007

Microbiol Mol Biol Rev

271

297

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SUMMARY Fungi are nonmotile eukaryotes that rely on their adhesins for selective interaction with the environment and with other fungal cells. Glycosylphosphatidylinositol (GPI)-cross-linked adhesins have essential roles in mating, colony morphology, host-pathogen interactions, and biofilm formation. We review the structure and binding properties of cell wall-bound adhesins of ascomycetous yeasts and relate them to their effects on cellular interactions, with particular emphasis on the agglutinins and flocculins of Saccharomyces and the Als proteins of Candida. These glycoproteins share common structural motifs tailored to surface activity and biological function. After being secreted to the outer face of the plasma membrane, they are covalently anchored in the wall through modified GPI anchors, with their binding domains elevated beyond the wall surface on highly glycosylated extended stalks. N-terminal globular domains bind peptide or sugar ligands, with between millimolar and nanomolar affinities. These affinities and the high density of adhesins and ligands at the cell surface determine microscopic and macroscopic characteristics of cell-cell associations. Central domains often include Thr-rich tandemly repeated sequences that are highly glycosylated. These domains potentiate cell-to-cell binding, but the molecular mechanism of such an association is not yet clear. These repeats also mediate recombination between repeats and between genes. The high levels of recombination and epigenetic regulation are sources of variation which enable the population to continually exploit new niches and resources.

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Section: Other Adhesins Of C Albicansmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A Biochemical Guide to Yeast Adhesins: Glycoproteins for Social and Antisocial Occasions

Dranginis

Rauceo

Coronado

et al. 2007

Microbiol Mol Biol Rev

271

297

View full text Add to dashboard Cite

show abstract

“…The cell wall also plays an important role in crucial host-fungus interactions that facilitate the establishment of human mycoses. For instance, cell wall components mediate tissue adhesion and invasion, provide protection against host defense reactions, are involved in biofilm formation, trigger the host immune response, and may also confer resistance to antifungal drugs (15,17,41,45,48,62,69).…”

mentioning

confidence: 99%

The Cell Wall of the Human Pathogen Candida glabrata : Differential Incorporation of Novel Adhesin-Like Wall Proteins

et al. 2008

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The cell wall of the human pathogen Candida glabrata governs initial host-pathogen interactions that underlie the establishment of fungal infections. With the aim of identifying species-specific features that may directly relate to its virulence, we have investigated the cell wall of C. glabrata using a multidisciplinary approach that combines microscopy imaging, biochemical studies, bioinformatics, and tandem mass spectrometry. Electron microscopy revealed a bilayered wall structure in which the outer layer is packed with mannoproteins. Biochemical studies showed that C. glabrata walls incorporate 50% more protein than Saccharomyces cerevisiae walls and, consistent with this, have a higher mannose/glucose ratio. Evidence is presented that C. glabrata walls contain glycosylphosphatidylinositol (GPI) proteins, covalently bound to the wall 1,6-␤-glucan, as well as proteins linked through a mild-alkali-sensitive linkage to 1,3-␤-glucan. A comprehensive genome-wide in silico inspection showed that in comparison to other fungi, C. glabrata contains an exceptionally large number, 67, of genes encoding adhesin-like GPI proteins. Phylogenetically these adhesinlike proteins form different clusters, one of which is the lectin-like EPA family. Mass spectrometric analysis identified 23 cell wall proteins, including 4 novel adhesin-like proteins, Awp1/2/3/4, and Epa6, which is involved in adherence to human epithelia and biofilm formation. Importantly, the presence of adhesin-like proteins in the wall depended on the growth stage and on the genetic background used, and this was reflected in alterations in adhesion capacity and cell surface hydrophobicity. We propose that the large repertoire of adhesin(-like) genes of C. glabrata contributes to its adaptability and virulence.

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“…Estudos in vitro demonstraram a presença de grande quantidade de HWP1 na parede de hifas, e quantidades pequenas ou imperceptíveis nas leveduras (NAGLIK et al, 2006). Cepas de C. albicans sem HWP1 são incapazes de formar adesões estáveis com células epiteliais bucais e têm reduzida capacidade de causar candidose sistêmica em ratos (STAAB et al, 1999).…”

Section: Genes Da Família Als E Gene Hwp1unclassified

Detecção da expressão dos genes HWP1, ALS1 e ALS3 de C.albicans, por meio de RT-PCR em tempo real, após desinfecção química e por microonda, de resina acrílica para confecção de dentaduras

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Candida albicans HWP1 gene expression and host antibody responses in colonization and disease

Cited by 86 publications

References 17 publications

A Biochemical Guide to Yeast Adhesins: Glycoproteins for Social and Antisocial Occasions

A Biochemical Guide to Yeast Adhesins: Glycoproteins for Social and Antisocial Occasions

The Cell Wall of the Human Pathogen Candida glabrata : Differential Incorporation of Novel Adhesin-Like Wall Proteins

Detecção da expressão dos genes HWP1, ALS1 e ALS3 de C.albicans, por meio de RT-PCR em tempo real, após desinfecção química e por microonda, de resina acrílica para confecção de dentaduras

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