Up-regulation of ERG11 Gene Among Fluconazole-resistant Candida Albicans Generated in Vitro: is There Any Clinical Implication?

Overview

Journal Diagn Microbiol Infect Dis

Specialties Infectious Diseases
Microbiology
Pathology

Date 2006 Jul 15

PMID 16839736

Citations 8

Authors

Mariceli Araujo Ribeiro

Claudete Rodrigues Paula

Affiliations

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Abstract

A well-characterized matched pair of fluconazole (FLU)-susceptible and FLU-resistant isolates, in addition to a clinical resistant isolate, was analyzed. It was found a differential expression of genes: the resistant strains experimentally induced after fluconazole exposure in vitro were associated mainly with up-regulation of ERG11 gene and a clear trailing growth in broth microdilution tests, whereas the isolate with clinically acquired resistance expressed constitutively high level of CDR gene and fluconazole MIC >64 mg mL(-1) within 24 h of incubation. The phenotype of resistant cells generated in vitro was reversible, implying that an induced transcriptional up-regulation of ERG genes would be one adaptive mechanism allowing the cells to grow in the presence of azole drugs. These drugs could have a potential role in modulating genes whose up-regulation would allow cells to remain in the hosts, providing a source for further development of resistance.

Citing Articles

Expression pattern of drug-resistance genes ERG11 and TAC1 in Candida albicans Clinical isolates.

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The evaluation of the overexpression of the ERG-11, MDR-1, CDR-1, and CDR-2 genes in fluconazole-resistant Candida albicans isolated from Ahvazian cancer patients with oral candidiasis.

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