Altering Specificity and Enhancing Stability of the Antimicrobial Peptides Nisin and Rombocin through Dehydrated Amino Acid Residue Engineering

IF 2.8 4区 医学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Peptides Pub Date : 2024-01-12 DOI:10.1016/j.peptides.2024.171152
Longcheng Guo, Konstantin Stoffels, Jaap Broos, Oscar P. Kuipers
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Abstract

Nisin serves as the prototype within the lantibiotic group of antimicrobial peptides, exhibiting a broad-spectrum inhibition against Gram-positive bacteria, including important food-borne pathogens and clinically relevant antibiotic-resistant strains. The gene-encoded nature of nisin allows for gene-based bioengineering, enabling the generation of novel derivatives. It has been demonstrated that nisin mutants can be produced with improved functional properties. Here, we particularly focus on the uncommon amino acid residues dehydroalanine (Dha) and dehydrobutyrin (Dhb), whose functions are not yet fully elucidated. Prior to this study, we developed a new expression system that utilizes the nisin modification machinery NisBTC to advance expression, resulting in enhanced peptide dehydration efficiency. Through this approach, we discovered that the dehydrated amino acid Dhb at position 18 in the peptide rombocin, a short variant of nisin, displayed four times higher activity compared to the non-dehydrated peptide against the strain Lactococcus lactis. Furthermore, we observed that in the peptides nisin and rombocin, the dehydrated amino acid Dha at residue positon 18 exhibited superior activity compared to the dehydrated amino acid Dhb. Upon purifying the wild-type nisin and its variant nisinG18/Dha to homogeneity, the minimum inhibitory concentration (MIC) indicated that the variant exhibited activity similar to that of wild-type nisin in inhibiting the growth of Bacillus cereus but showed twice the MIC values against the other four tested Gram-positive strains. Further stability tests demonstrated that the dehydrated peptide exhibited properties similar to wild-type nisin under different temperatures but displayed higher resistance to proteolytic enzymes compared to wild-type nisin.

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通过脱水氨基酸残基工程改变抗菌肽 Nisin 和 Rombocin 的特异性并提高其稳定性
Nisin 是抗菌肽类兰特生物素的原型,对革兰氏阳性细菌(包括重要的食源性病原体和临床相关的抗生素耐药菌株)具有广谱抑制作用。尼生素的基因编码特性允许进行基于基因的生物工程,从而产生新型衍生物。研究表明,尼生素突变体的功能特性可以得到改善。在这里,我们特别关注不常见的氨基酸残基脱氢丙氨酸(Dha)和脱氢丁炔(Dhb),它们的功能尚未完全阐明。在这项研究之前,我们开发了一种新的表达系统,利用尼生素修饰机制 NisBTC 来推进表达,从而提高多肽脱水效率。通过这种方法,我们发现,与未脱水多肽相比,尼生素短变体多肽 rombocin 第 18 位的脱水氨基酸 Dhb 对乳酸乳球菌菌株的活性高出四倍。此外,我们还观察到,在 nisin 和 rombocin 肽中,残基位点 18 上的脱水氨基酸 Dha 比脱水氨基酸 Dhb 具有更高的活性。在纯化野生型 nisin 及其变体 nisinG18/Dha 至均一后,最小抑菌浓度(MIC)表明,变体在抑制蜡样芽孢杆菌生长方面的活性与野生型 nisin 相似,但对其他四种受试革兰氏阳性菌株的最小抑菌浓度值则是野生型 nisin 的两倍。进一步的稳定性测试表明,脱水肽在不同温度下的特性与野生型尼生素相似,但与野生型尼生素相比,对蛋白水解酶的抗性更高。
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来源期刊
Peptides
Peptides 医学-生化与分子生物学
CiteScore
6.40
自引率
6.70%
发文量
130
审稿时长
28 days
期刊介绍: Peptides is an international journal presenting original contributions on the biochemistry, physiology and pharmacology of biological active peptides, as well as their functions that relate to gastroenterology, endocrinology, and behavioral effects. Peptides emphasizes all aspects of high profile peptide research in mammals and non-mammalian vertebrates. Special consideration can be given to plants and invertebrates. Submission of articles with clinical relevance is particularly encouraged.
期刊最新文献
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