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西北太平洋地区新型隐球菌唑类耐药性研究:ERG11 作用的研究

Azole resistance in Cryptococcus gattii from the Pacific Northwest: Investigation of the role of ERG11.

机构信息

Infectious Diseases Division, Department of Medicine, Oregon Health and Science University, Portland, Oregon, USA.

出版信息

Antimicrob Agents Chemother. 2013 Nov;57(11):5478-85. doi: 10.1128/AAC.02287-12. Epub 2013 Aug 26.

DOI:10.1128/AAC.02287-12
PMID:23979758
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3811322/
Abstract

Cryptococcus gattii is responsible for an expanding epidemic of serious infections in Western Canada and the Northwestern United States (Pacific Northwest). Some patients with these infections respond poorly to azole antifungals, and high azole MICs have been reported in Pacific Northwest C. gattii. In this study, multiple azoles (but not amphotericin B) had higher MICs for 25 Pacific Northwest C. gattii than for 34 non-Pacific Northwest C. gattii or 20 Cryptococcus neoformans strains. We therefore examined the roles in azole resistance of overexpression of or mutations in the gene (ERG11) encoding the azole target enzyme. ERG11/ACT1 mRNA ratios were higher in C. gattii than in C. neoformans, but these ratios did not differ in Pacific Northwest and non-Pacific Northwest C. gattii strains, nor did they correlate with fluconazole MICs within any group. Three Pacific Northwest C. gattii strains with low azole MICs and 2 with high azole MICs had deduced Erg11p sequences that differed at one or more positions from that of the fully sequenced Pacific Northwest C. gattii strain R265. However, the azole MICs for conditional Saccharomyces cerevisiae erg11 mutants expressing the 5 variant ERG11s were within 2-fold of the azole MICs for S. cerevisiae expressing the ERG11 gene from C. gattii R265, non-Pacific Northwest C. gattii strain WM276, or C. neoformans strains H99 or JEC21. We conclude that neither ERG11 overexpression nor variations in ERG11 coding sequences was responsible for the high azole MICs observed for the Pacific Northwest C. gattii strains we studied.

摘要

格特隐球菌是导致加拿大西部和美国西北部(太平洋西北地区)严重感染性疾病不断扩大流行的原因。一些患有此类感染的患者对唑类抗真菌药物反应不佳,并且据报道,太平洋西北地区的格特隐球菌对唑类药物的 MIC 值较高。在这项研究中,与 34 株非太平洋西北地区格特隐球菌或 20 株新型隐球菌相比,25 株太平洋西北地区格特隐球菌对多种唑类药物(但不是两性霉素 B)的 MIC 值更高。因此,我们研究了唑类药物耐药性中过表达或基因突变在编码唑类药物靶酶的基因(ERG11)中的作用。与新型隐球菌相比,格特隐球菌中的 ERG11/ACT1 mRNA 比值更高,但在太平洋西北地区和非太平洋西北地区的格特隐球菌菌株中,这些比值没有差异,也与任何组内氟康唑 MIC 值无关。3 株唑类 MIC 值较低的太平洋西北地区格特隐球菌和 2 株唑类 MIC 值较高的太平洋西北地区格特隐球菌具有与完全测序的太平洋西北地区格特隐球菌菌株 R265 的推断 Erg11p 序列在一个或多个位置不同的序列。然而,表达 5 种变体 ERG11 的条件酿酒酵母 erg11 突变体的唑类 MIC 值与表达来自 R265 的格特隐球菌、非太平洋西北地区格特隐球菌 WM276 或新型隐球菌 H99 或 JEC21 的 ERG11 基因的酿酒酵母的唑类 MIC 值相差不超过 2 倍。我们的结论是,既不是 ERG11 过表达,也不是 ERG11 编码序列的变化导致我们研究的太平洋西北地区格特隐球菌菌株的唑类 MIC 值升高。

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