Division of Molecular Host Defence, Department of Infectious Diseases and Immunology, Faculty of Veterinary Medicine, Utrecht University, Utrecht, The Netherlands.
Westerdijk Fungal Biodiversity Institute, Utrecht, The Netherlands.
Med Mycol. 2020 Nov 10;58(8):1073-1084. doi: 10.1093/mmy/myaa014.
Fungal infections in humans are increasing worldwide and are currently mostly treated with a relative limited set of antifungals. Resistance to antifungals is increasing, for example, in Aspergillus fumigatus and Candida auris, and expected to increase for many medically relevant fungal species in the near future. We have developed and patented a set of cathelicidin-inspired antimicrobial peptides termed 'PepBiotics'. These peptides were initially selected for their bactericidal activity against clinically relevant Pseudomonas aeruginosa and Staphylococcus aureus isolates derived from patients with cystic fibrosis and are active against a wide range of bacteria (ESKAPE pathogens). We now report results from studies that were designed to investigate the antifungal activity of PepBiotics against a set of medically relevant species encompassing species of Aspergillus, Candida, Cryptococcus, Fusarium, Malassezia, and Talaromyces. We characterized a subset of PepBiotics and show that these peptides strongly affected metabolic activity and/or growth of a set of medically relevant fungal species, including azole-resistant A. fumigatus isolates. PepBiotics showed a strong inhibitory activity against a large variety of filamentous fungi and yeasts species at low concentrations (≤1 μM) and were fungicidal for at least a subset of these fungal species. Interestingly, the concentration of PepBiotics required to interfere with growth or metabolic activity varied between different fungal species or even between isolates of the same fungal species. This study shows that PepBiotics display strong potential for use as novel antifungal compounds to fight a large variety of clinically relevant fungal species.
人类中的真菌感染在全球范围内不断增加,目前主要使用相对有限的一组抗真菌药物进行治疗。抗真菌药物的耐药性正在增加,例如烟曲霉和耳念珠菌,预计在不久的将来,许多与医学相关的真菌物种的耐药性也会增加。我们开发并获得了一组抗菌肽的专利,这些抗菌肽受防御素启发,被称为“PepBiotics”。这些肽最初是根据其对来自囊性纤维化患者的临床相关铜绿假单胞菌和金黄色葡萄球菌分离株的杀菌活性进行选择的,并且对广泛的细菌(ESKAPE 病原体)具有活性。我们现在报告了旨在研究 PepBiotics 对一组医学相关物种(包括曲霉属、假丝酵母属、隐球菌属、镰刀菌属、马拉色菌属和拟青霉属)的抗真菌活性的研究结果。我们对 PepBiotics 的一个亚组进行了表征,并表明这些肽强烈影响了一组医学相关真菌物种的代谢活性和/或生长,包括唑类耐药的烟曲霉分离株。PepBiotics 在低浓度(≤1 μM)下对各种丝状真菌和酵母具有强烈的抑制活性,并且对至少一部分这些真菌物种具有杀菌作用。有趣的是,干扰生长或代谢活性所需的 PepBiotics 浓度在不同的真菌物种之间甚至在同一真菌物种的分离株之间存在差异。这项研究表明,PepBiotics 具有作为新型抗真菌化合物用于对抗各种临床相关真菌物种的巨大潜力。
