Boosting Expression of a Specifically Targeted Antimicrobial Peptide K in Pichia pastoris by Employing a 2A Self-Cleaving Peptide-Based Expression System.

IF 4.3 2区 医学 Q1 INFECTIOUS DISEASES Antibiotics-Basel Pub Date : 2024-10-18 DOI:10.3390/antibiotics13100986
Yunhui Zhu, Yuwen Li, Yuxin Fang, Mingyang Hu, Lu Zhao, Mingrui Sui, Na Dong
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Abstract

Background/Objectives: The current epidemic of drug-resistance bacterial strains is one of the most urgent threats to human health. Antimicrobial peptides (AMPs) are known for their good activity against multidrug resistance bacteria. Specifically targeted AMPs (STAMPs) are a fraction of AMPs that target specific bacteria and maintain the balance of the healthy microbiota of a host. We reported a STAMP Peptide K (former name: peptide 13) for E. coli. The aim of this study was to effectively produce peptide K using methylotrophic yeast Pichia pastoris. Methods: Three inserts (sequence of peptide K (K), two copies of peptide K fused with 2A sequence (KTK), and two copies of peptide K fused with 2A and an extra α mating factor (KTAK)) were designed to investigate the effect of the number of repeats and the trafficking of peptide on the yield. Results: The yield from KTK was the highest-more than two-fold higher compared with K-implying the role of the 2A sequence in heterologous peptide expression apart from the co-translation. Then, the fermentation condition for KTK was optimized. The optimized yield of KTK was 6.67 mg/mL, suggesting the efficiency of the expression system. Selectivity, antibacterial activity, biocompatibility, and the stability of the fermentation product were equivalent to the chemically synthesized peptide. The actional mechanism of the fermentation product included membrane permeabilization and ROS induction. Conclusions: Together, our work provided a new perspective to augment the yield of the antimicrobial peptide in the microbial system, building a technological foundation for their large-scale production and expanding the market application of AMPs.

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利用基于 2A 自裂解肽的表达系统促进特定靶向抗菌肽 K 在 Pichia pastoris 中的表达。
背景/目标:目前,耐药性细菌菌株的流行是人类健康面临的最紧迫威胁之一。众所周知,抗菌肽(AMPs)对多重耐药细菌具有良好的活性。特异性靶向抗菌肽(STAMPs)是抗菌肽中的一部分,可针对特定细菌,维持宿主健康微生物群的平衡。我们报道了一种针对大肠杆菌的 STAMP 肽 K(原名:肽 13)。本研究的目的是利用养甲基酵母 Pichia pastoris 有效地生产肽 K。方法:设计了三个插入物(多肽 K 的序列(K)、两个多肽 K 与 2A 序列融合的拷贝(KTK)、两个多肽 K 与 2A 和一个额外的 α 交配因子融合的拷贝(KTAK)),以研究重复次数和多肽的贩运对产量的影响。结果KTK的产量最高,比K高出两倍多,这表明2A序列在异源多肽表达中的作用除了共转化之外。随后,对 KTK 的发酵条件进行了优化。优化后的 KTK 产量为 6.67 mg/mL,表明该表达系统的效率很高。发酵产物的选择性、抗菌活性、生物相容性和稳定性与化学合成多肽相当。发酵产物的作用机制包括膜通透性和 ROS 诱导。结论:总之,我们的工作为提高微生物系统中抗菌肽的产量提供了一个新的视角,为大规模生产抗菌肽奠定了技术基础,并扩大了 AMPs 的市场应用。
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来源期刊
Antibiotics-Basel
Antibiotics-Basel Pharmacology, Toxicology and Pharmaceutics-General Pharmacology, Toxicology and Pharmaceutics
CiteScore
7.30
自引率
14.60%
发文量
1547
审稿时长
11 weeks
期刊介绍: Antibiotics (ISSN 2079-6382) is an open access, peer reviewed journal on all aspects of antibiotics. Antibiotics is a multi-disciplinary journal encompassing the general fields of biochemistry, chemistry, genetics, microbiology and pharmacology. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of papers.
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