Differential gene expression in the pathogenic dermatophyte Arthroderma benhamiae in vitro versus during infection.

Details

Serval ID
serval:BIB_EDC50B528F78
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Differential gene expression in the pathogenic dermatophyte Arthroderma benhamiae in vitro versus during infection.
Journal
Microbiology
Author(s)
Staib P., Zaugg C., Mignon B., Weber J., Grumbt M., Pradervand S., Harshman K., Monod M.
ISSN
1465-2080[electronic], 1350-0872[linking]
Publication state
Published
Issued date
2010
Peer-reviewed
Oui
Volume
156
Number
Pt 3
Pages
884-895
Language
english
Abstract
Although dermatophytes are the most common agents of superficial mycoses in humans and animals, the molecular basis of the pathogenicity of these fungi is largely unknown. In vitro digestion of keratin by dermatophytes is associated with the secretion of multiple proteases, which are assumed to be responsible for their particular specialization to colonize and degrade keratinized host structures during infection. To investigate the role of individual secreted proteases in dermatophytosis, a guinea pig infection model was established for the zoophilic dermatophyte Arthroderma benhamiae, which causes highly inflammatory cutaneous infections in humans and rodents. By use of a cDNA microarray covering approximately 20-25 % of the A. benhamiae genome and containing sequences of at least 23 protease genes, we revealed a distinct in vivo protease gene expression profile in the fungal cells, which was surprisingly different from the pattern elicited during in vitro growth on keratin. Instead of the major in vitro -expressed proteases, others were activated specifically during infection. These enzymes are therefore suggested to fulfil important functions that are not exclusively associated with the degradation of keratin. Most notably, the gene encoding the serine protease subtilisin 6, which is a known major allergen in the related dermatophyte Trichophyton rubrum and putatively linked to host inflammation, was found to be the most strongly upregulated gene during infection. In addition, our approach identified other candidate pathogenicity-related factors in A. benhamiae, such as genes encoding key enzymes of the glyoxylate cycle and an opsin-related protein. Our work provides what we believe to be the first broad-scale gene expression profile in human pathogenic dermatophytes during infection, and points to putative virulence-associated mechanisms that make these micro-organisms the most successful aetiological agents of superficial mycoses.
Pubmed
Web of science
Open Access
Yes
Create date
27/01/2010 18:08
Last modification date
20/08/2019 16:15
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