Decoding host cell interaction- and fluconazole-induced metabolic alterations and drug resistance in Candida auris.

IF 2.6 2区 生物学 Q2 MYCOLOGY
Mycologia Pub Date : 2024-09-01 Epub Date: 2024-07-18 DOI:10.1080/00275514.2024.2363730
Samah H H Ismail, Rania Hamdy, Alaa M Altaie, Bahgat Fayed, Salam Dakalbab, Raafat El-Awady, Sameh S M Soliman
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引用次数: 0

Abstract

Candida auris is an emerging drug-resistant pathogen associated with high mortality rates. This study aimed to explore the metabolic alterations and associated pathogenesis and drug resistance in fluconazole-treated Candida auris-host cell interaction. Compared with controls, secreted metabolites from fluconazole-treated C. auris and fluconazole-treated C. auris-host cell co-culture demonstrated notable anti-Candida activity. Fluconazole caused significant reductions in C. auris cell numbers and aggregated phenotype. Metabolites produced by C. auris with potential fungal colonization, invasion, and host immune evasion effects were identified. Metabolites known to enhance biofilm formation produced during C. auris-host cell interaction were inhibited by fluconazole. Fluconazole enhanced the production of metabolites with biofilm inhibition activity, including behenyl alcohol and decanoic acid. Metabolites with potential Candida growth inhibition activity such as 2-palmitoyl glycerol, 1-tetradecanol, and 1-nonadecene were activated by fluconazole. Different patterns of proinflammatory cytokine expression presented due to fluconazole concentration and host cell type (fibroblasts versus macrophages). This highlights the immune response's complexity, emphasizing the necessity for additional research to comprehend cell-type-specific responses to antifungal therapies. Both host cell interaction and fluconazole treatment increased the expression of CDR1 and ERG11 genes, both associated with drug resistance. This study provides insights into pathogenesis in C. auris due to host cell interaction and fluconazole treatment. Understanding these interactions is crucial for enhancing fluconazole sensitivity and effectively combating C. auris.

解码宿主细胞相互作用和氟康唑诱导的念珠菌代谢改变和耐药性。
白色念珠菌是一种新出现的耐药病原体,死亡率很高。本研究旨在探讨经氟康唑处理的白色念珠菌与宿主细胞相互作用过程中的代谢改变以及相关的致病机制和耐药性。与对照组相比,经氟康唑处理的白色念珠菌和经氟康唑处理的白色念珠菌-宿主细胞共培养物分泌的代谢物具有显著的抗白色念珠菌活性。氟康唑能显著减少念珠菌细胞数量和聚集表型。确定了 C. auris 产生的具有潜在真菌定殖、入侵和宿主免疫逃避作用的代谢物。氟康唑可抑制箭毒-宿主细胞相互作用过程中产生的、已知可促进生物膜形成的代谢物。氟康唑增强了具有生物膜抑制活性的代谢物的生成,包括山嵛醇和癸酸。氟康唑激活了具有潜在念珠菌生长抑制活性的代谢物,如 2-棕榈酰甘油、1-十四醇和 1-壬二烯。由于氟康唑浓度和宿主细胞类型(成纤维细胞和巨噬细胞)的不同,促炎细胞因子的表达模式也不同。这凸显了免疫反应的复杂性,强调有必要开展更多研究,以了解细胞类型对抗真菌疗法的特异性反应。宿主细胞相互作用和氟康唑治疗都增加了 CDR1 和 ERG11 基因的表达,而这两种基因都与耐药性有关。这项研究深入揭示了宿主细胞相互作用和氟康唑治疗导致的蛔虫致病机理。了解这些相互作用对于提高氟康唑的敏感性和有效防治蛔虫至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Mycologia
Mycologia 生物-真菌学
CiteScore
6.20
自引率
3.60%
发文量
56
审稿时长
4-8 weeks
期刊介绍: International in coverage, Mycologia presents recent advances in mycology, emphasizing all aspects of the biology of Fungi and fungus-like organisms, including Lichens, Oomycetes and Slime Molds. The Journal emphasizes subjects including applied biology, biochemistry, cell biology, development, ecology, evolution, genetics, genomics, molecular biology, morphology, new techniques, animal or plant pathology, phylogenetics, physiology, aspects of secondary metabolism, systematics, and ultrastructure. In addition to research articles, reviews and short notes, Mycologia also includes invited papers based on presentations from the Annual Conference of the Mycological Society of America, such as Karling Lectures or Presidential Addresses.
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