Aspergillus fumigatus and aspergillosis: From basics to clinics

IF 14.1 1区生物学 Q1 MYCOLOGY

Studies in Mycology Pub Date : 2021-09-01 DOI:10.1016/j.simyco.2021.100115

A. Arastehfar , A. Carvalho , J. Houbraken , L. Lombardi , R. Garcia-Rubio , J.D. Jenks , O. Rivero-Menendez , R. Aljohani , I.D. Jacobsen , J. Berman , N. Osherov , M.T. Hedayati , M. Ilkit , D. Armstrong-James , T. Gabaldón , J. Meletiadis , M. Kostrzewa , W. Pan , C. Lass-Flörl , D.S. Perlin , M. Hoenigl

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引用次数: 78

Abstract

The airborne fungus Aspergillus fumigatus poses a serious health threat to humans by causing numerous invasive infections and a notable mortality in humans, especially in immunocompromised patients. Mould-active azoles are the frontline therapeutics employed to treat aspergillosis. The global emergence of azole-resistant A. fumigatus isolates in clinic and environment, however, notoriously limits the therapeutic options of mould-active antifungals and potentially can be attributed to a mortality rate reaching up to 100 %. Although specific mutations in CYP51A are the main cause of azole resistance, there is a new wave of azole-resistant isolates with wild-type CYP51A genotype challenging the efficacy of the current diagnostic tools. Therefore, applications of whole-genome sequencing are increasingly gaining popularity to overcome such challenges. Prominent echinocandin tolerance, as well as liver and kidney toxicity posed by amphotericin B, necessitate a continuous quest for novel antifungal drugs to combat emerging azole-resistant A. fumigatus isolates. Animal models and the tools used for genetic engineering require further refinement to facilitate a better understanding about the resistance mechanisms, virulence, and immune reactions orchestrated against A. fumigatus. This review paper comprehensively discusses the current clinical challenges caused by A. fumigatus and provides insights on how to address them.

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烟曲霉和曲霉病:从基础到临床

烟曲霉(Aspergillus fumigatus)是一种通过空气传播的真菌，对人类造成严重的健康威胁，引起大量侵袭性感染和显著的死亡率，特别是在免疫功能低下的患者中。霉菌活性唑类药物是治疗曲霉病的一线药物。然而，全球临床和环境中出现的抗唑烟曲霉分离株，众所周知地限制了霉菌活性抗真菌药物的治疗选择，并可能导致高达100%的死亡率。尽管CYP51A的特异性突变是导致唑耐药的主要原因，但新一波具有野生型CYP51A基因型的唑耐药分离株对当前诊断工具的有效性提出了挑战。因此，全基因组测序的应用越来越受欢迎，以克服这些挑战。突出的棘白菌素耐受性，以及两性霉素B引起的肝脏和肾脏毒性，需要不断寻求新的抗真菌药物来对抗新出现的耐唑烟曲霉菌株。用于基因工程的动物模型和工具需要进一步完善，以便更好地了解针对烟曲霉的抗性机制、毒力和免疫反应。本文全面讨论了烟曲霉引起的临床挑战，并对如何解决这些挑战提出了见解。

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

Studies in Mycology 生物-真菌学

CiteScore

35.60

自引率

3.00%

发文量

期刊介绍： The international journal Studies in Mycology focuses on advancing the understanding of filamentous fungi, yeasts, and various aspects of mycology. It publishes comprehensive systematic monographs as well as topical issues covering a wide range of subjects including biotechnology, ecology, molecular biology, pathology, and systematics. This Open-Access journal offers unrestricted access to its content. Each issue of Studies in Mycology consists of around 5 to 6 papers, either in the form of monographs or special focused topics. Unlike traditional length restrictions, the journal encourages submissions of manuscripts with a minimum of 50 A4 pages in print. This ensures a thorough exploration and presentation of the research findings, maximizing the depth of the published work.