What makes Candida auris pan-drug resistant? Integrative insights from genomic, transcriptomic, and phenomic analysis of clinical strains resistant to all four major classes of antifungal drugs.

IF 4.1 2区 医学 Q2 MICROBIOLOGY
Antimicrobial Agents and Chemotherapy Pub Date : 2024-10-08 Epub Date: 2024-09-19 DOI:10.1128/aac.00911-24
Johanna Rhodes, Jonathan Jacobs, Emily K Dennis, Swati R Manjari, Nilesh K Banavali, Robert Marlow, Mohammed Anower Rokebul, Sudha Chaturvedi, Vishnu Chaturvedi
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Abstract

The global epidemic of drug-resistant Candida auris continues unabated. The initial report on pan-drug resistant (PDR) C. auris strains in a hospitalized patient in New York was unprecedented. PDR C. auris showed both known and unique mutations in the prominent gene targets of azoles, amphotericin B, echinocandins, and flucytosine. However, the factors that allow C. auris to acquire pan-drug resistance are not known. Therefore, we conducted a genomic, transcriptomic, and phenomic analysis to better understand PDR C. auris. Among 1,570 genetic variants in drug-resistant C. auris, 299 were unique to PDR strains. The whole-genome sequencing results suggested perturbations in genes associated with nucleotide biosynthesis, mRNA processing, and nuclear export of mRNA. Whole transcriptome sequencing of PDR C. auris revealed two genes to be significantly differentially expressed-a DNA repair protein and DNA replication-dependent chromatin assembly factor 1. Of 59 novel transcripts, 12 transcripts had no known homology. We observed no fitness defects among multi-drug resistant (MDR) and PDR C. auris strains grown in nutrient-deficient or -enriched media at different temperatures. Phenotypic profiling revealed wider adaptability to nitrogenous nutrients and increased utilization of substrates critical in upper glycolysis and tricarboxylic acid cycle. Structural modeling of a 33-amino acid deletion in the gene for uracil phosphoribosyl transferase suggested an alternate route in C. auris to generate uracil monophosphate that does not accommodate 5-fluorouracil as a substrate. Overall, we find evidence of metabolic adaptations in MDR and PDR C. auris in response to antifungal drug lethality without deleterious fitness costs.

是什么让白色念珠菌产生泛耐药性?从对所有四大类抗真菌药物耐药的临床菌株的基因组、转录组和表型组分析中获得的综合见解。
耐药性念珠菌在全球的流行有增无减。关于纽约一名住院病人体内泛耐药(PDR)念珠菌菌株的最初报告是史无前例的。PDR C. auris 在唑类、两性霉素 B、棘白菌素类和氟尿嘧啶类药物的主要靶基因上都出现了已知和独特的突变。然而,使 C. auris 获得泛耐药性的因素尚不清楚。因此,我们进行了基因组学、转录组学和表观组学分析,以更好地了解耐药梭菌。在耐药 C. auris 的 1,570 个基因变异中,有 299 个是 PDR 菌株所特有的。全基因组测序结果表明,与核苷酸生物合成、mRNA加工和mRNA核输出相关的基因发生了紊乱。对 PDR C. auris 的全转录组测序发现,有两个基因的表达存在显著差异--一个是 DNA 修复蛋白,另一个是 DNA 复制依赖性染色质组装因子 1。在 59 个新转录本中,有 12 个转录本没有已知的同源性。我们观察到,在不同温度、营养缺乏或富集的培养基中生长的耐多药(MDR)和耐多药(PDR)C. auris 菌株之间并无适应性缺陷。表型分析表明,该菌株对含氮营养物质的适应性更强,对上层糖酵解和三羧酸循环中关键底物的利用率更高。通过对尿嘧啶磷酸核糖转移酶基因中 33 个氨基酸缺失的结构建模,我们发现了栗鼠产生单磷酸尿嘧啶的另一种途径,这种途径不以 5-氟尿嘧啶为底物。总之,我们发现了 MDR 和 PDR C. auris 在应对抗真菌药物致死性时进行代谢适应性调整的证据,而不会产生有害的适应性代价。
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
CiteScore
10.00
自引率
8.20%
发文量
762
审稿时长
3 months
期刊介绍: Antimicrobial Agents and Chemotherapy (AAC) features interdisciplinary studies that build our understanding of the underlying mechanisms and therapeutic applications of antimicrobial and antiparasitic agents and chemotherapy.
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