序列排列产生具有不同抗菌和抗生物膜活性的肽。

Sequence Permutation Generates Peptides with Different Antimicrobial and Antibiofilm Activities.

作者信息

Mishra Biswajit, Lakshmaiah Narayana Jayaram, Lushnikova Tamara, Zhang Yingxia, Golla Radha M, Zarena D, Wang Guangshun

机构信息

Department of Pathology and Microbiology, College of Medicine, University of Nebraska Medical Center, 985900 Nebraska Medical Center, Omaha, NE 68198-5900, USA.

出版信息

Pharmaceuticals (Basel). 2020 Sep 25;13(10):271. doi: 10.3390/ph13100271.

DOI:10.3390/ph13100271

PMID:32992772

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7600788/

Abstract

Antibiotic resistance poses a threat to our society, and 10 million people could die by 2050. To design potent antimicrobials, we made use of the antimicrobial peptide database (APD). Using the database filtering technology, we identified a useful template and converted it into an effective peptide WW291 against methicillin-resistant (MRSA). Here, we compared the antibacterial activity and cytotoxicity of a family of peptides obtained from sequence permutation of WW291. The resulting eight WW peptides (WW291-WW298) gained different activities against a panel of bacteria. While WW295 inhibited the growth of , WW298 was highly active against USA300 LAC. Consistently with this, WW298 was more effective in permeating or depolarizing the membranes, whereas WW295 potently permeated the membranes. In addition, WW298, but not WW295, inhibited the MRSA attachment and could disrupt its preformed biofilms more effectively than daptomycin. WW298 also protected wax moths from MRSA infection causing death. Thus, sequence permutation provides one useful avenue to generating antimicrobial peptides with varying activity spectra. Taken together with amino acid composition modulation, these methods may lead to narrow-spectrum peptides that are more promising to selectively eliminate invading pathogens without damaging commensal microbiota.

摘要

抗生素耐药性对我们的社会构成了威胁，到2050年可能会有1000万人死亡。为了设计强效抗菌剂，我们利用了抗菌肽数据库（APD）。通过数据库筛选技术，我们确定了一个有用的模板，并将其转化为一种针对耐甲氧西林金黄色葡萄球菌（MRSA）的有效肽WW291。在此，我们比较了通过WW291序列置换获得的一系列肽的抗菌活性和细胞毒性。由此产生的八个WW肽（WW291-WW298）对一组细菌具有不同的活性。虽然WW295抑制了[具体细菌名称未给出]的生长，但WW298对USA300 LAC具有高活性。与此一致的是，WW298在使[具体细菌名称未给出]细胞膜渗透或去极化方面更有效，而WW295能有效地渗透[具体细菌名称未给出]细胞膜。此外，WW298而非WW295抑制了MRSA的附着，并且比达托霉素更有效地破坏其预先形成的生物膜。WW298还保护蜡螟免受MRSA感染致死。因此，序列置换为生成具有不同活性谱的抗菌肽提供了一条有用的途径。与氨基酸组成调节一起，这些方法可能会产生窄谱肽，更有希望在不损害共生微生物群的情况下选择性地消除入侵病原体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ffe0/7600788/ec73d593150a/pharmaceuticals-13-00271-g001.jpg

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序列排列产生具有不同抗菌和抗生物膜活性的肽。

Sequence Permutation Generates Peptides with Different Antimicrobial and Antibiofilm Activities.

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