利用机器学习工具设计的具有高溶解性和低红细胞毒性的新型富含色氨酸和精氨酸的活性抗菌肽。
Novel active Trp- and Arg-rich antimicrobial peptides with high solubility and low red blood cell toxicity designed using machine learning tools.
作者信息
Henson Bridget A B, Li Fucong, Álvarez-Huerta José Ausencio, Wedamulla Poornima G, Palacios Arianna Valdes, Scott Max R M, Lim David Thiam En, Scott W M Hayden, Villanueva Monica T L, Ye Emily, Straus Suzana K
机构信息
Department of Chemistry, University of British Columbia, Vancouver, British Columbia, Canada.
Department of Chemistry, University of British Columbia, Vancouver, British Columbia, Canada.
出版信息
Int J Antimicrob Agents. 2025 Jan;65(1):107399. doi: 10.1016/j.ijantimicag.2024.107399. Epub 2024 Dec 5.
BACKGROUND
Given the rising number of multidrug-resistant (MDR) bacteria, there is a need to design synthetic antimicrobial peptides (AMPs) that are highly active, non-hemolytic, and highly soluble. Machine learning tools allow the straightforward in silico identification of non-hemolytic antimicrobial peptides.
METHODS
Here, we utilized a number of these tools to rank the best peptides from two libraries comprised of: 1) a total of 8192 peptides with sequence bhxxbhbGAL, where b is the basic amino acid R or K, h is a hydrophobic amino acid, i.e. G, A, L, F, I, V, Y, or W and x is Q, S, A, or V; and 2) a total of 512 peptides with sequence RWhxbhRGWL, where b and h are as for the first library and x is Q, S, A, or G. The top 100 sequences from each library, as well as 10 peptides predicted to be active but hemolytic (for a total of 220 peptides), were SPOT synthesized and their IC values were determined against S. aureus USA 300 (MRSA).
RESULTS
Of these, 6 AMPs with low IC's were characterized further in terms of: MICs against MRSA, E. faecalis, K. pneumoniae, E.coli and P. aeruginosa; RBC lysis; secondary structure in mammalian and bacterial model membranes; and activity against cancer cell lines HepG2, CHO, and PC-3.
CONCLUSION
Overall, the approach yielded a large family of active antimicrobial peptides with high solubility and low red blood cell toxicity. It also provides a framework for future designs and improved machine learning tools.
背景
鉴于多重耐药(MDR)细菌数量不断增加,需要设计出高活性、非溶血性且高度可溶的合成抗菌肽(AMP)。机器学习工具可直接在计算机上鉴定非溶血性抗菌肽。
方法
在此,我们利用了多种此类工具对两个文库中的最佳肽进行排名,这两个文库包括:1)总共8192个序列为bhxxbhbGAL的肽,其中b为碱性氨基酸R或K,h为疏水性氨基酸,即G、A、L、F、I、V、Y或W,x为Q、S、A或V;2)总共512个序列为RWhxbhRGWL的肽,其中b和h与第一个文库中的相同,x为Q、S、A或G。对每个文库中的前100个序列以及预测有活性但具有溶血性的10个肽(总共220个肽)进行点阵合成,并测定它们对金黄色葡萄球菌USA 300(耐甲氧西林金黄色葡萄球菌)的IC值。
结果
其中,对6个低IC值的AMP进行了进一步表征,包括:对耐甲氧西林金黄色葡萄球菌、粪肠球菌、肺炎克雷伯菌、大肠杆菌和铜绿假单胞菌的最低抑菌浓度(MIC);红细胞裂解;在哺乳动物和细菌模型膜中的二级结构;以及对癌细胞系HepG2、CHO和PC - 3的活性。
结论
总体而言,该方法产生了一大类具有高溶解性和低红细胞毒性的活性抗菌肽。它还为未来的设计和改进机器学习工具提供了框架。
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