A novel downstream regulatory element cooperates with the silencing machinery to repress EPA1 expression in Candida glabrata

Candida glabrata, an opportunistic fungal pathogen, adheres to mammalian epithelial cells; adherence is mediated primarily by the Epa1 adhesin. EPA1 is a member of a large gene family of ≈ 23 paralogues, which encode putative adhesins. In this study, we address how EPA1 transcription is regulated. O...

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Published in:Genetics (Austin) 2012-04, Vol.190 (4), p.1285-1297
Main Authors: Gallegos-García, Verónica, Pan, Shih-Jung, Juárez-Cepeda, Jacqueline, Ramírez-Zavaleta, Candy Y, Martin-del-Campo, Marcela Briones, Martínez-Jiménez, Verónica, Castaño, Irene, Cormack, Brendan, De Las Peñas, Alejandro
Format: Article
Language:English
Subjects:
Bioinformatics
Candida glabrata - genetics
Candida glabrata - growth & development
Candida glabrata - metabolism
Cell Adhesion
Cell Division
Cells, Cultured
Chromosome Mapping
Chromosomes, Fungal - genetics
Chromosomes, Fungal - metabolism
Culture Media - metabolism
DNA-Binding Proteins - genetics
DNA-Binding Proteins - metabolism
Epithelial Cells - metabolism
Epithelial Cells - microbiology
Fungal Proteins - genetics
Fungal Proteins - metabolism
Fungi
Gene Expression Regulation, Fungal
Gene Silencing
Genes, Fungal
Genomes
Histone Deacetylases - genetics
Histone Deacetylases - metabolism
Humans
Investigations
Lectins - genetics
Lectins - metabolism
Microbiological Techniques
Multiprotein Complexes - genetics
Multiprotein Complexes - metabolism
Pathogens
Regulatory Elements, Transcriptional
Repressor Proteins - genetics
Repressor Proteins - metabolism
Telomere - genetics
Telomere - metabolism
Trans-Activators - genetics
Trans-Activators - metabolism
Transcriptional Activation
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Summary:Candida glabrata, an opportunistic fungal pathogen, adheres to mammalian epithelial cells; adherence is mediated primarily by the Epa1 adhesin. EPA1 is a member of a large gene family of ≈ 23 paralogues, which encode putative adhesins. In this study, we address how EPA1 transcription is regulated. Our data show that EPA1 expression is subject to two distinct negative regulatory mechanisms. EPA1 transcription is repressed by subtelomeric silencing: the Sir complex (Sir2-Sir4), Rap1, Rif1, yKu70, and yKu80 are required for full repression. Activation of EPA1 occurs immediately after dilution of stationary phase (SP) cells into fresh media; however, transcription is rapidly repressed again, limiting expression to lag phase, just as the cells exit stationary phase. This repression following lag phase requires a cis-acting regulatory negative element (NE) located in the EPA1 3'-intergenic region and is independent of telomere proximity. Bioinformatic analysis shows that there are 10 copies of the NE-like sequence in the C. glabrata genome associated with other EPA genes as well as non-EPA genes.
ISSN:1943-2631
0016-6731
1943-2631
DOI:10.1534/genetics.111.138099