Microbes & Pathogen Biology, The Institute for Global Food Security, School of Biological Sciences, Queen's University Belfast, Belfast, United Kingdom.
PLoS Pathog. 2023 Jul 31;19(7):e1011508. doi: 10.1371/journal.ppat.1011508. eCollection 2023 Jul.
Antimicrobial Peptides (AMPs) are immune effectors that are key components of the invertebrate innate immune system providing protection against pathogenic microbes. Parasitic helminths (phylum Nematoda and phylum Platyhelminthes) share complex interactions with their hosts and closely associated microbiota that are likely regulated by a diverse portfolio of antimicrobial immune effectors including AMPs. Knowledge of helminth AMPs has largely been derived from nematodes, whereas the flatworm AMP repertoire has not been described. This study highlights limitations in the homology-based approaches, used to identify putative nematode AMPs, for the characterisation of flatworm AMPs, and reveals that innovative algorithmic AMP prediction approaches provide an alternative strategy for novel helminth AMP discovery. The data presented here: (i) reveal that flatworms do not encode traditional lophotrochozoan AMP groups (Big Defensin, CSαβ peptides and Myticalin); (ii) describe a unique integrated computational pipeline for the discovery of novel helminth AMPs; (iii) reveal >16,000 putative AMP-like peptides across 127 helminth species; (iv) highlight that cysteine-rich peptides dominate helminth AMP-like peptide profiles; (v) uncover eight novel helminth AMP-like peptides with diverse antibacterial activities, and (vi) demonstrate the detection of AMP-like peptides from Ascaris suum biofluid. These data represent a significant advance in our understanding of the putative helminth AMP repertoire and underscore a potential untapped source of antimicrobial diversity which may provide opportunities for the discovery of novel antimicrobials. Further, unravelling the role of endogenous worm-derived antimicrobials and their potential to influence host-worm-microbiome interactions may be exploited for the development of unique helminth control approaches.
抗菌肽 (AMPs) 是先天免疫系统的免疫效应物,是无脊椎动物先天免疫系统的关键组成部分,可提供针对致病微生物的保护。寄生虫(线虫门和扁形动物门)与宿主及其密切相关的微生物群之间存在复杂的相互作用,这些相互作用可能受到多种抗菌免疫效应物(包括 AMPs)的调节。关于寄生虫 AMP 的知识主要来自线虫,而扁形动物 AMP 库尚未被描述。本研究强调了基于同源性的方法在鉴定潜在线虫 AMP 方面的局限性,这种方法不适用于扁形动物 AMP 的特征描述,同时也揭示了创新的算法 AMP 预测方法为新的寄生虫 AMP 发现提供了一种替代策略。本研究提供的数据:(i)揭示扁形动物不编码传统的担轮动物 AMP 组(大防御素、CSαβ 肽和 Myticalin);(ii)描述了一种用于发现新的寄生虫 AMP 的独特集成计算管道;(iii)揭示了 127 种寄生虫中超过 16000 种潜在的 AMP 样肽;(iv)强调富含半胱氨酸的肽主宰寄生虫 AMP 样肽谱;(v)发现了具有多种抗菌活性的 8 种新型寄生虫 AMP 样肽;(vi)证明了从猪蛔虫生物流体中检测到 AMP 样肽。这些数据代表了我们对抗生素肽的认识的重要进展,突显了潜在的未开发的抗菌多样性来源,这可能为发现新的抗菌药物提供机会。此外,揭示内源性蠕虫来源的抗菌肽的作用及其对宿主-蠕虫-微生物群相互作用的潜在影响,可能为开发独特的寄生虫控制方法提供机会。
