蠕虫衍生小分子的免疫调节和生物学特性:在诊断和治疗中的潜在应用

Karma Yeshi, R. Ruscher, A. Loukas, P. Wangchuk
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引用次数: 7

摘要

寄生蠕虫分泌和排泄大量已知有助于扭曲或抑制宿主免疫反应的分子,从而为寄生虫的持续维持建立生态位。事实上,蠕虫的免疫调节能力主要归因于排泄/分泌产物(ESP)。据报道,蠕虫的ESP和已鉴定的小分子(SM)具有不同的生物学和药理学特性。现有文献仅报道了有限的代谢物,由于鉴定方案和蠕虫特异性化合物库的限制,许多代谢物的身份仍然未知。已知许多代谢产物参与宿主-寄生虫的相互作用和致病性。例如,已知在蠕虫感染阶段检测到的脂肪酸(如硬脂酸)通过促进宿主内部的成功渗透和迁移,在宿主相互作用中发挥作用。此外,在蠕虫物种中检测到的排泄/分泌SM具有各种生物学特性,包括抗炎活性,这表明它们在开发免疫调节药物方面具有潜力。例如,在化学诱导的结肠炎实验小鼠模型中,蠕虫衍生的体细胞组织提取物和全粗ESP通过抑制人外周血单核细胞分泌促炎细胞因子和抑制病理而显示出抗炎特性。与蛋白质等大分子不同,SM是药物开发的理想候选者,因为它们结构小,可塑性强,缺乏免疫原性。未来的研究应致力于识别未知的SM,并使用最新的代谢组学技术和相关软件来分离未被充分探索的蠕虫代谢物生态位,这些技术和软件为寻找新的诊断和新的治疗方法提供了潜在的关键。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Immunomodulatory and biological properties of helminth-derived small molecules: Potential applications in diagnostics and therapeutics
Parasitic helminths secrete and excrete a vast array of molecules known to help skew or suppress the host’s immune response, thereby establishing a niche for sustained parasite maintenance. Indeed, the immunomodulatory potency of helminths is attributed mainly to excretory/secretory products (ESPs). The ESPs of helminths and the identified small molecules (SM) are reported to have diverse biological and pharmacological properties. The available literature reports only limited metabolites, and the identity of many metabolites remains unknown due to limitations in the identification protocols and helminth-specific compound libraries. Many metabolites are known to be involved in host-parasite interactions and pathogenicity. For example, fatty acids (e.g., stearic acid) detected in the infective stages of helminths are known to have a role in host interaction through facilitating successful penetration and migration inside the host. Moreover, excreted/secreted SM detected in helminth species are found to possess various biological properties, including anti-inflammatory activities, suggesting their potential in developing immunomodulatory drugs. For example, helminths-derived somatic tissue extracts and whole crude ESPs showed anti-inflammatory properties by inhibiting the secretion of proinflammatory cytokines from human peripheral blood mononuclear cells and suppressing the pathology in chemically-induced experimental mice model of colitis. Unlike bigger molecules like proteins, SM are ideal candidates for drug development since they are small structures, malleable, and lack immunogenicity. Future studies should strive toward identifying unknown SM and isolating the under-explored niche of helminth metabolites using the latest metabolomics technologies and associated software, which hold potential keys for finding new diagnostics and novel therapeutics.
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