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Indian <i>Trichophyton mentagrophytes</i> squalene epoxidase <i>erg1</i> double mutants show high proportion of combined fluconazole and terbinafine resistance

Anke Burmester, Uta‐Christina Hipler, Silke Uhrlaß, Pietro Nenoff, Archana Singal, Shyam B. Verma, Peter Elsner, Cornelia Wiegand

2020Mycoses55 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The Indian ITS genotype VIII Trichophyton mentagrophytes population shows a high amount of different erg1 (ergosterol) mutants encoding for squalene epoxidase, which catalyses the first step of ergosterol biosynthesis. OBJECTIVES: Illumination of the implication of point mutations at position Ala448Thr in single and double erg1 T mentagrophytes mutants because mutants of this type were abundantly found within the Indian fungal population. METHODS: Growth in fluconazole or terbinafine containing medium was analysed using a microplate-laser-nephelometry (MLN)-based growth assay. RESULTS: Ala 448 Thr erg1 single mutants were terbinafine sensitive, but about 50% of isolates showed an increased fluconazole resistance, whereas 95% of the double mutants (Phe 397 Leu, Ala 448Thr) demonstrated combined terbinafine and increased fluconazole resistance. CONCLUSION: The new Indian T mentagrophytes populations show several point mutations in erg1. Point mutations at position 397 were previously described and cause terbinafine resistance. A large part of the double mutants exhibit resistance to terbinafine and fluconazole, demonstrating a selective advantage of the combination of both mutations.

Topics & Concepts

TerbinafineSqualene monooxygenaseFluconazoleMutantTrichophytonBiologyPopulationMicrobiologyErgosterolAntifungalGeneticsMedicineBiochemistryGeneItraconazoleBiosynthesisEnvironmental healthNail Diseases and TreatmentsPlant and fungal interactionsAutoimmune Bullous Skin Diseases
Indian <i>Trichophyton mentagrophytes</i> squalene epoxidase <i>erg1</i> double mutants show high proportion of combined fluconazole and terbinafine resistance | Litcius