Antimicrobial Peptide–Poly(ethylene glycol) Conjugates: Connecting Molecular Architecture, Solution Properties, and Functional Performance

IF 4.7 Q1 POLYMER SCIENCE ACS polymers Au Pub Date : 2023-12-13 DOI:10.1021/acspolymersau.3c00026
Zixian Cui, Matthew A. Crawford, Blake A. Rumble, Megan M. Krogh, Molly A. Hughes and Rachel A. Letteri*, 
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Abstract

Antimicrobial peptides (AMPs) are promising alternatives to conventional antibiotics for treating infections caused by drug-resistant bacteria; yet, many peptides are limited by toxicity to eukaryotic cells and instability in biological environments. Conjugation to linear polymers that reduce cytotoxicity and improve stability, however, often decreases antimicrobial activity. In this work, we combine the biocompatibility advantages of poly(ethylene glycol) (PEG) with the efficacy merits of nonlinear polymer architectures that accommodate multiple AMPs per molecule. By conjugating a chemokine-derived AMP, stapled Ac-P9, to linear and star-shaped PEG with various arm numbers and lengths, we investigated the role of molecular architecture in solution properties (i.e., ζ-potential, size, and morphology) and performance (i.e., antimicrobial activity, hemolysis, and protease resistance). Linear, 4-arm, and 8-arm conjugates with 2–2.5 kDa PEG arms were found to form nanoscale structures in solution with lower ζ-potentials relative to the unconjugated AMP, suggesting that the polymer partially shields the cationic AMP. Reducing the length of the PEG arms of the 8-arm conjugate to 1.25 kDa appeared to better reveal the peptide, seen by the increased ζ-potential, and promote assembly into particles with a larger size and defined spherical morphology. The antimicrobial effects exerted by the short 8-arm conjugate rivaled that of the unconjugated peptide, and the AMP constituents of the short 8-arm conjugate were protected from proteolytic degradation. All other conjugates examined also imparted a degree of protease resistance, but exhibited some reduced level of antimicrobial activity as compared to the AMP alone. None of the conjugates caused significant cytotoxic effects, which bodes well for their future potential to treat infections. While enhancing proteolytic stability often comes with the cost of lower antimicrobial activity, we have found that presenting AMPs at high density on a neutral nonlinear polymer strikes a favorable balance, exhibiting both enhanced stability and high antimicrobial activity.

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抗菌肽-聚乙二醇共轭物:连接分子结构、溶液特性和功能性能
抗菌肽(AMPs)是治疗耐药细菌引起的感染的有希望的传统抗生素替代品;然而,许多多肽由于对真核细胞的毒性和在生物环境中的不稳定性而受到限制。然而,与线性聚合物的偶联可以降低细胞毒性并提高稳定性,但往往会降低抗菌活性。在这项工作中,我们将聚乙二醇(PEG)的生物相容性优势与每个分子可容纳多个amp的非线性聚合物结构的功效优点结合起来。通过将趋化因子衍生的AMP(钉接Ac-P9)偶联到具有不同臂数和长度的线性和星形PEG上,我们研究了分子结构在溶液性质(即,ζ电位、大小和形态)和性能(即,抗菌活性、溶血和蛋白酶抗性)中的作用。与未共轭的AMP相比,具有2-2.5 kDa PEG臂的线性、4臂和8臂偶联物在溶液中形成纳米级结构,其ζ电位较低,表明聚合物部分屏蔽了阳离子AMP。将8臂偶联物的PEG臂长度减少到1.25 kDa,通过增加的ζ电位可以更好地显示肽,并促进组装成具有更大尺寸和明确球形形态的颗粒。短8臂偶联物的抗菌作用与未偶联肽相当,并且短8臂偶联物的AMP成分不受蛋白水解降解的影响。所有其他检测的偶联物也具有一定程度的蛋白酶抗性,但与单独的AMP相比,其抗菌活性有所降低。没有一种缀合物引起明显的细胞毒性作用,这预示着它们未来治疗感染的潜力。虽然提高蛋白水解稳定性往往以降低抗菌活性为代价,但我们发现,在中性非线性聚合物上高密度呈现amp可以达到良好的平衡,既表现出增强的稳定性,又表现出高抗菌活性。
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