Mutations in
            <i>Aspergillus fumigatus</i>
            Resulting in Reduced Susceptibility to Posaconazole Appear To Be Restricted to a Single Amino Acid in the Cytochrome P450 14α-Demethylase

Mann, Paul A.; Parmegiani, Raulo; Wei, Shui-Qing; Mendrick, Cara; Li, Xin; Loebenberg, David; DiDomenico, Beth; Hare, R S; Walker, Scott S.; McNicholas, Paul M.

doi:10.1128/aac.47.2.577-581.2003

Cited by 178 publications

(163 citation statements)

References 30 publications

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“…The first mutation identified to have a role in A. fumigatus azole resistance was the cyp51A glycine 54 (G54) point mutation, which was detected in both laboratory-evolved posaconazole-resistant strains as well as clinical isolates with reduced posaconazole susceptibility (362). This same mutation was also found to contribute to itraconazole resistance in clinical isolates (152).…”

Section: Alteration Of the Drug Targetmentioning

confidence: 74%

Regulatory Circuitry Governing Fungal Development, Drug Resistance, and Disease

Shapiro

Robbins

Cowen

2011

Microbiol Mol Biol Rev

471

528

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SUMMARY Pathogenic fungi have become a leading cause of human mortality due to the increasing frequency of fungal infections in immunocompromised populations and the limited armamentarium of clinically useful antifungal drugs. Candida albicans , Cryptococcus neoformans , and Aspergillus fumigatus are the leading causes of opportunistic fungal infections. In these diverse pathogenic fungi, complex signal transduction cascades are critical for sensing environmental changes and mediating appropriate cellular responses. For C. albicans , several environmental cues regulate a morphogenetic switch from yeast to filamentous growth, a reversible transition important for virulence. Many of the signaling cascades regulating morphogenesis are also required for cells to adapt and survive the cellular stresses imposed by antifungal drugs. Many of these signaling networks are conserved in C. neoformans and A. fumigatus , which undergo distinct morphogenetic programs during specific phases of their life cycles. Furthermore, the key mechanisms of fungal drug resistance, including alterations of the drug target, overexpression of drug efflux transporters, and alteration of cellular stress responses, are conserved between these species. This review focuses on the circuitry regulating fungal morphogenesis and drug resistance and the impact of these pathways on virulence. Although the three human-pathogenic fungi highlighted in this review are those most frequently encountered in the clinic, they represent a minute fraction of fungal diversity. Exploration of the conservation and divergence of core signal transduction pathways across C. albicans , C. neoformans , and A. fumigatus provides a foundation for the study of a broader diversity of pathogenic fungi and a platform for the development of new therapeutic strategies for fungal disease.

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Section: Alteration Of the Drug Targetmentioning

confidence: 74%

Regulatory Circuitry Governing Fungal Development, Drug Resistance, and Disease

Shapiro

Robbins

Cowen

2011

Microbiol Mol Biol Rev

471

528

View full text Add to dashboard Cite

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“…Repositioning the rigid I helix that is observed in all inhibitor bound trypanosomal 14DMs is marked with a blue arrow 3. the available shape within the enzyme binding cleft and potentially contributing to its inhibitory potency. Location of posaconazole in the TC14DM structure provides a possible explanation to posaconazole resistance observed in some strains (clinical isolates) of a pathogenic fungus Aspergillus fumigatus (27), where single point mutations resulted in substitutions of Gly 54 (aligns with Gly 49 in TC14DM) to arginine or tryptophan have been detected. Assuming that the fungal 14DM structure is similar to that of TC14DM, the introduction of a bulky and less flexible residue in this position might narrow the channel entrance and affect the surface interactions (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Moreover, easily induced resistance to fluconazole was demonstrated in the laboratory strains of TC (26). Posaconazole has been reported not to induce the efflux pump mechanism (24); however, sparse cases of resistance associated with point mutations in the fungal 14DM have been observed (27).…”

mentioning

confidence: 99%

Structural Insights into Inhibition of Sterol 14α-Demethylase in the Human Pathogen Trypanosoma cruzi

Lepesheva

Hargrove

Anderson

et al. 2010

Journal of Biological Chemistry

129

201

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“…20 For molecules derived from ketoconazole (ie, itraconazole, posaconazole), extension of the nonpolar side chains enhances azole binding to the 14α-demethylase apoprotein, resulting in an enhanced spectrum of activity against molds ( Figure 3). 21 Voriconazole, a derivative of fluconazole, possesses an α-o-methyl group that confers activity against Aspergillus species and other filamentous fungi. 21,22 Resistance to triazole antifungal agents is most commonly the result of mutations in the azole binding pocket of 14α-demethylase 21,22 and/or the overexpression of MDR1 efflux pumps that expel fluconazole or the multidrug adenosine triphosphate-dependent efflux pumps CDR1 and CDR2, which expel all triazoles, thereby leading to cross-resistance.…”

Section: Overview Of Antifungal Pharmacologymentioning

confidence: 99%

“…21 Voriconazole, a derivative of fluconazole, possesses an α-o-methyl group that confers activity against Aspergillus species and other filamentous fungi. 21,22 Resistance to triazole antifungal agents is most commonly the result of mutations in the azole binding pocket of 14α-demethylase 21,22 and/or the overexpression of MDR1 efflux pumps that expel fluconazole or the multidrug adenosine triphosphate-dependent efflux pumps CDR1 and CDR2, which expel all triazoles, thereby leading to cross-resistance. 3 Because intrinsic resistance in C krusei is a result of impaired binding of fluconazole to 14α-demethylase, newer triazoles with enhanced binding to the enzyme retain activity against fluconazoleresistant strains such as C krusei.…”

Section: Overview Of Antifungal Pharmacologymentioning

confidence: 99%