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酸菌素 A 和酸菌素 8912 属于 II 类细菌素的一个独特亚家族,具有广谱的抗菌活性。

Acidocin A and Acidocin 8912 Belong to a Distinct Subfamily of Class II Bacteriocins with a Broad Spectrum of Antimicrobial Activity.

机构信息

M.M. Shemyakin and Yu.A. Ovchinnikov Institute of Bioorganic Chemistry, Russian Academy of Sciences, 117997 Moscow, Russia.

Moscow Center for Advanced Studies, 123592 Moscow, Russia.

出版信息

Int J Mol Sci. 2024 Sep 19;25(18):10059. doi: 10.3390/ijms251810059.

DOI:10.3390/ijms251810059
PMID:39337545
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11432624/
Abstract

Within class II bacteriocins, we assume the presence of a separate subfamily of antimicrobial peptides possessing a broad spectrum of antimicrobial activity. Although these peptides are structurally related to the subclass IIa (pediocin-like) bacteriocins, they have significant differences in biological activities and, probably, a mechanism of their antimicrobial action. A representative of this subfamily is acidocin A from TK9201. We discovered the similarity between acidocin A and acidocin 8912 from TK8912 when analyzing plasmids from lactic acid bacteria and suggested the presence of a single evolutionary predecessor of these peptides. We obtained the -terminally extended homolog of acidocin 8912, named acidocin 8912A, a possible intermediate form in the evolution of the former. The study of secondary structures and biological activities of these peptides showed their structural similarity to acidocin A; however, the antimicrobial activities of acidocin 8912 and acidocin 8912A were lower than that of acidocin A. In addition, these peptides demonstrated stronger cytotoxic and membranotropic effects. Building upon what we previously discovered about the immunomodulatory properties of acidocin A, we studied its proteolytic stability under conditions simulating those in the digestive tract and also assessed its ability to permeate intestinal epithelium using the Caco-2 cells monolayer model. In addition, we found a pronounced effect of acidocin A against fungi of the genus Candida, which might also expand the therapeutic potential of this bacterial antimicrobial peptide.

摘要

在 II 类细菌素中,我们假设存在一个具有广谱抗菌活性的独立抗菌肽亚科。虽然这些肽与 IIa 亚类(肠菌素样)细菌素有结构上的相似性,但它们在生物活性上有显著差异,而且可能在其抗菌作用机制上也有所不同。该亚科的代表是来自 TK9201 的酸菌素 A。在分析乳酸菌质粒时,我们发现酸菌素 A 与来自 TK8912 的酸菌素 8912 之间存在相似性,并推测这些肽具有单一的进化前体。我们获得了酸菌素 8912 的 -末端扩展同源物,命名为酸菌素 8912A,它可能是前体进化的中间形式。这些肽的二级结构和生物活性研究表明它们与酸菌素 A 具有结构相似性;然而,酸菌素 8912 和酸菌素 8912A 的抗菌活性低于酸菌素 A。此外,这些肽表现出更强的细胞毒性和膜透性。基于我们之前发现的酸菌素 A 的免疫调节特性,我们研究了它在模拟消化道条件下的蛋白水解稳定性,并使用 Caco-2 细胞单层模型评估了它穿透肠上皮的能力。此外,我们发现酸菌素 A 对念珠菌属真菌有明显的作用,这可能也扩大了这种细菌抗菌肽的治疗潜力。

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