S2.5d Exploring multidrug resistance, fitness compensation, and collateral sensitivity in Candida auris : Fight fire with fire?

IF 1.4 Q4 MYCOLOGY

Medical mycology journal Pub Date : 2022-09-01 DOI:10.1093/mmy/myac072.S2.5d

Hans Carolus, Dimitrios Sofras, Poppy C. S. Sephton-Clark, Louise Goossens, Alicia Chen, Siebe Pierson, Celia Lobo Romero, Ana Subotić, J. Meis, Christina A. Cuomo, P. van Dijck

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引用次数: 0

Abstract

Abstract S2.5 Rare yeasts, September 21, 2022, 3:00 PM - 4:30 PM Candida auris (C. auris) is a recently emerged human fungal pathogen of growing concern due to its ability to acquire extensive multidrug resistance (MDR) to all four antifungal drug classes. The unprecedented extent of MDR in C. auris, suggests accelerated resistance evolution, novel mechanisms of resistance, and/or potential fitness compensation. Despite being the first fungus to be officially considered an urgent antimicrobial resistance threat by the CDC (US), insights into the resistance mechanisms and evolutionary dynamics of C. auris are still scarce. By using high-throughput in vitro experimental evolution with various antifungal drugs, we have obtained a library of resistant strains from four different clades. Through both genome and targeted sequencing, we have discovered novel mutations, especially for polyene resistance, which indicate new mechanisms of resistance and fitness compensation. For the validation of mutations, we have optimized a recyclable CRISPR/Cas9 tool for C. auris based on the C. albicans HIS-FLP system. By mapping drug susceptibility responses of evolved strains across a library of several antifungals and repurposed drugs, we have discovered trends of cross-resistance and collateral sensitivity. Both phenomena have been extensively studied in tumors and bacteria but remain unexplored in fungi. In the light of these observations, we explore novel treatment schemes that prevent antifungal drug resistance development in C. auris and other pathogenic fungi.

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S2.5d耳念珠菌的多药耐药、适应性补偿和侧枝敏感性研究:以毒攻?

耳念珠菌(C. auris)是最近出现的一种人类真菌病原体，由于它能够对所有四种抗真菌药物产生广泛的多药耐药(MDR)，因此越来越受到关注。auris中前所未有的耐多药耐药程度表明加速的抗性进化，新的抗性机制和/或潜在的适应性补偿。尽管是第一种被美国疾病控制与预防中心正式认为具有紧急抗菌素耐药性威胁的真菌，但对金黄色葡萄球菌的耐药机制和进化动力学的了解仍然很少。通过与多种抗真菌药物的高通量体外实验进化，我们获得了来自4个不同支系的耐药菌株文库。通过基因组和靶向测序，我们发现了新的突变，特别是多烯抗性突变，这表明了新的抗性和适应性补偿机制。为了验证突变，我们基于白色念珠菌HIS-FLP系统优化了一种可回收的金黄色念珠菌CRISPR/Cas9工具。通过绘制进化菌株在几种抗真菌药物和重新利用药物库中的药敏反应，我们发现了交叉耐药和附带敏感性的趋势。这两种现象已经在肿瘤和细菌中得到了广泛的研究，但在真菌中尚未得到探索。根据这些观察结果，我们探索新的治疗方案，以防止C. auris和其他病原真菌的抗真菌耐药性发展。

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来源期刊

Medical mycology journal Medicine-Infectious Diseases

CiteScore

1.80

自引率

10.00%

发文量

期刊介绍： The Medical Mycology Journal is published by and is the official organ of the Japanese Society for Medical Mycology. The Journal publishes original papers, reviews, and brief reports on topics related to medical and veterinary mycology.