Title
Candida glabrata’s genome plasticity confers a unique pattern of expressed cell wall proteins
11627/504011627/5040
Author
López-Fuentes, Eunice
Gutiérrez Escobedo, Ma Guadalupe
Timmermans, Bea
Van Dijck, Patrick
De Las Peñas Nava, Alejandro
Castaño Navarro, Irene Beatriz
Abstract
"Candida glabrata is the second most common cause of candidemia, and its ability to adhere to different host cell types, to microorganisms, and to medical devices are important virulence factors. Here, we consider three characteristics that confer extraordinary advantages to C. glabrata within the host. (1) C. glabrata has a large number of genes encoding for adhesins most of which are localized at subtelomeric regions. The number and sequence of these genes varies substantially depending on the strain, indicating that C. glabrata can tolerate high genomic plasticity; (2) The largest family of CWPs (cell wall proteins) is the EPA (epithelial adhesin) family of adhesins. Epa1 is the major adhesin and mediates adherence to epithelial, endothelial and immune cells. Several layers of regulation like subtelomeric silencing, cis-acting regulatory regions, activators, nutritional signaling, and stress conditions tightly regulate the expression of many adhesin-encoding genes in C. glabrata, while many others are not expressed. Importantly, there is a connection between acquired resistance to xenobiotics and increased adherence; (3) Other subfamilies of adhesins mediate adherence to Candida albicans, allowing C. glabrata to efficiently invade the oral epithelium and form robust biofilms. It is noteworthy that every C. glabrata strain analyzed presents a unique pattern of CWPs at the cell surface."
Publication date
2018Publication type
articleDOI
https://doi.org/10.3390/jof4020067Knowledge area
MICROBIOLOGÍACollections
Publisher
MDPIKeywords
Candida glabrataCell wall proteins
Adherence
Virulence
Fluconazole resistance
Genome plasticity
Subtelomeric silencing
Clinical isolates