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靶向铁获取可阻断真菌病原体烟曲霉和尖孢镰刀菌的感染。

Targeting iron acquisition blocks infection with the fungal pathogens Aspergillus fumigatus and Fusarium oxysporum.

机构信息

Department of Ophthalmology and Visual Sciences, Case Western Reserve University, Cleveland, Ohio, United States of America.

出版信息

PLoS Pathog. 2013;9(7):e1003436. doi: 10.1371/journal.ppat.1003436. Epub 2013 Jul 11.

DOI:10.1371/journal.ppat.1003436
PMID:23853581
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3708856/
Abstract

Filamentous fungi are an important cause of pulmonary and systemic morbidity and mortality, and also cause corneal blindness and visual impairment worldwide. Utilizing in vitro neutrophil killing assays and a model of fungal infection of the cornea, we demonstrated that Dectin-1 dependent IL-6 production regulates expression of iron chelators, heme and siderophore binding proteins and hepcidin in infected mice. In addition, we show that human neutrophils synthesize lipocalin-1, which sequesters fungal siderophores, and that topical lipocalin-1 or lactoferrin restricts fungal growth in vivo. Conversely, we show that exogenous iron or the xenosiderophore deferroxamine enhances fungal growth in infected mice. By examining mutant Aspergillus and Fusarium strains, we found that fungal transcriptional responses to low iron levels and extracellular siderophores are essential for fungal growth during infection. Further, we showed that targeting fungal iron acquisition or siderophore biosynthesis by topical application of iron chelators or statins reduces fungal growth in the cornea by 60% and that dual therapy with the iron chelator deferiprone and statins further restricts fungal growth by 75%. Together, these studies identify specific host iron-chelating and fungal iron-acquisition mediators that regulate fungal growth, and demonstrate that therapeutic inhibition of fungal iron acquisition can be utilized to treat topical fungal infections.

摘要

丝状真菌是导致肺部和全身性发病率和死亡率的重要原因,也是导致全球角膜盲和视力障碍的原因。我们利用体外中性粒细胞杀伤测定和角膜真菌感染模型,证明 Dectin-1 依赖性 IL-6 产生调节感染小鼠中铁螯合剂、血红素和铁载体结合蛋白和铁调素的表达。此外,我们还表明,人中性粒细胞合成脂联素-1,它可以螯合真菌铁载体,局部应用脂联素-1 或乳铁蛋白可限制体内真菌生长。相反,我们表明外源性铁或外源性铁载体去铁胺增强感染小鼠中的真菌生长。通过检查突变的曲霉属和镰刀菌属菌株,我们发现真菌对低铁水平和细胞外铁载体的转录反应对于感染期间的真菌生长是必不可少的。此外,我们表明通过局部应用铁螯合剂或他汀类药物靶向真菌铁摄取或铁载体生物合成可使角膜中真菌生长减少 60%,并且铁螯合剂地拉罗司和他汀类药物的双重治疗可使真菌生长进一步减少 75%。总之,这些研究确定了调节真菌生长的特定宿主铁螯合和真菌铁摄取介质,并证明抑制真菌铁摄取的治疗可用于治疗局部真菌感染。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2640/3708856/6d5b4ffc3395/ppat.1003436.g008.jpg
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