Polymorphism in Mitochondrial Group I Introns among Cryptococcus neoformans and Cryptococcus gattii Genotypes and Its Association with Drug Susceptibility

Cryptococcosis, one of the most important systemic mycosis in the world, is caused by different genotypes of and , which differ in their ecology, epidemiology, and antifungal susceptibility. Therefore, the search for new molecular markers for genotyping, pathogenicity and drug susceptibility is nece...

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Bibliographic Details
Published in:Frontiers in microbiology 2018-02, Vol.9, p.86-86
Main Authors: Gomes, Felipe E E S, Arantes, Thales D, Fernandes, José A L, Ferreira, Leonardo C, Romero, Héctor, Bosco, Sandra M G, Oliveira, Maria T B, Del Negro, Gilda M B, Theodoro, Raquel C
Format: Article
Language:English
Subjects:
5-fluorocytosine
antifungal susceptibility
Cryptococcus genotypes
group I introns
LSU
Microbiology
mtDNA
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Summary:Cryptococcosis, one of the most important systemic mycosis in the world, is caused by different genotypes of and , which differ in their ecology, epidemiology, and antifungal susceptibility. Therefore, the search for new molecular markers for genotyping, pathogenicity and drug susceptibility is necessary. Group I introns fulfill the requisites for such task because (i) they are polymorphic sequences; (ii) their self-splicing is inhibited by some drugs; and (iii) their correct splicing under parasitic conditions is indispensable for pathogen survival. Here, we investigated the presence of group I introns in the mitochondrial gene in 77 isolates and its possible relation to drug susceptibility. Sequencing revealed two new introns in the gene. All the introns showed high sequence similarity to other mitochondrial introns from distinct fungi, supporting the hypothesis of an ancient non-allelic invasion. Intron presence was statistically associated with those genotypes reported to be less pathogenic ( < 0.001). Further virulence assays are needed to confirm this finding. In addition, antifungal tests indicated that the presence of introns may influence the minimum inhibitory concentration (MIC) of amphotericin B and 5-fluorocytosine. These findings point to group I introns in the mitochondrial genome of as potential molecular markers for antifungal resistance, as well as therapeutic targets.
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2018.00086