米尔倍霉素A4肟作为光滑念珠菌中唑类转运的探针。

Milbemycin A4 oxime as a probe of azole transport in Candida glabrata.

作者信息

Walker Bryan, Izumikawa Koichi, Tsai Huie-Fung, Bennett John E

机构信息

Clinical Mycology Section, Laboratory of Clinical Infectious Diseases, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, MD, USA.

出版信息

FEMS Yeast Res. 2014 Aug;14(5):755-61. doi: 10.1111/1567-1364.12164. Epub 2014 Jun 12.

DOI:10.1111/1567-1364.12164

PMID:24838041

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4126866/

Abstract

Azole resistance in Candida glabrata, a pathogenic yeast, has prompted studies of compounds that have therapeutic potential by reversing azole resistance. Milbemycin A4 oxime blocked azole efflux and enhanced azole susceptibility fourfold in 28 clinical isolates of C. glabrata. Specificity of the milbemycin A4 oxime effect depended on the drug transporter and the substrate being effluxed. The major effect of milbemycin A4 oxime was inhibition of azole and rhodamine 6G efflux by the ATP-binding cassette (ABC) transporters CgCDR1 and PDH1. Milbemycin A4 oxime effect did not extend to oligomycin, transported by the ABC transporter YOR1 or to benomyl, transported by the major facilitator superfamily transporter, CgFLR1. Milbemycin A4 oxime did not suppress transcription of CgCDR1 but increased CgCDR1 expression 126-fold. Selectivity of the effect is compatible with the concept that milbemycin A4 oxime may interact directly with one or more drug-binding sites of the major azole transporters.

摘要

光滑念珠菌是一种致病性酵母，其对唑类药物的耐药性促使人们对具有逆转唑类耐药性治疗潜力的化合物展开研究。米尔倍霉素A4肟在28株光滑念珠菌临床分离株中可阻断唑类药物外排，并使唑类药物敏感性提高四倍。米尔倍霉素A4肟作用的特异性取决于药物转运蛋白和被外排的底物。米尔倍霉素A4肟的主要作用是抑制ATP结合盒（ABC）转运蛋白CgCDR1和PDH1介导的唑类药物和罗丹明6G外排。米尔倍霉素A4肟的作用并不扩展至由ABC转运蛋白YOR1转运的寡霉素，也不扩展至由主要易化子超家族转运蛋白CgFLR1转运的苯菌灵。米尔倍霉素A4肟并未抑制CgCDR1的转录，但使CgCDR1表达增加了126倍。该作用的选择性与米尔倍霉素A4肟可能直接与主要唑类转运蛋白的一个或多个药物结合位点相互作用的概念相符。

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