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Effects of single d-amino acid substitutions on disruption of β-sheet structure and hydrophobicity in cyclic 14-residue antimicrobial peptide analogs related to gramicidin S

机译:单个d-氨基酸取代对与短杆菌肽S相关的环状14残基抗菌肽类似物的β-折叠结构破坏和疏水性的影响

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摘要

Gramicidin S (GS) is a 10-residue cyclic β-sheet peptide with lytic activity against the membranes of both microbial and human cells, i.e. it possesses little to no biologic specificity for either cell type. Structure–activity studies of de novo-designed 14-residue cyclic peptides based on GS have previously shown that higher specificity against microbial membranes, i.e. a high therapeutic index (TI), can be achieved by the replacement of a single l-amino acid with its corresponding d-enantiomer [Kondejewski, L.H. et al. (1999) J. Biol. Chem. > 274, 13181]. The diastereomer with a d-Lys substituted at position 4 caused the greatest improvement in specificity vs. other l to d substitutions within the cyclic 14-residue peptide GS14, through a combination of decreased peptide amphipathicity and disrupted β-sheet structure in aqueous conditions [McInnes, C. et al. (2000) J. Biol. Chem. > 275, 14287]. Based on this information, we have created a series of peptide diastereomers substituted only at position 4 by a d- or l-amino acid (Leu, Phe, Tyr, Asn, Lys, and achiral Gly). The amino acids chosen in this study represent a range of hydrophobicities/hydrophilicities as a subset of the 20 naturally occurring amino acids. While the d- and l-substitutions of Leu, Phe, and Tyr all resulted in strong hemolytic activity, the substitutions of hydrophilic d-amino acids d-Lys and d-Asn in GS14 at position 4 resulted in weaker hemolytic activity than in the l-diastereomers, which demonstrated strong hemolysis. All of the l-substitutions also resulted in poor antimicrobial activity and an extremely low TI, while the antimicrobial activity of the d-substituted peptides tended to improve based on the hydrophilicity of the residue. d-Lys was the most polar and most efficacious substitution, resulting in the highest TI. Interestingly, the hydrophobic class="small-caps">d-amino acid substitutions had superior antimicrobial activity vs. the class="small-caps">l-enantiomers although substitution of a hydrophobic class="small-caps">d-amino acid increases the nonpolar face hydrophobicity. These results further support the role of hydrophobicity of the nonpolar face as a major influence on microbial specificity, but also highlights the importance of a disrupted β-sheet structure on antimicrobial activity.
机译:Gramicidin S(GS)是一种10残基的环状β-折叠肽,对微生物和人类细胞的膜均具有裂解活性,即,对这两种细胞类型都几乎没有生物学特异性。从头开始设计的基于GS的14个残基的环状肽的结构活性研究以前表明,通过用L-氨基酸替代单个L-氨基酸可以实现对微生物膜的更高特异性,即高治疗指数(TI)。其相应的d-对映体[Kondejewski,LH等。 (1999)生物化学杂志。化学> 274 ,13181]。在水性条件下,减少的肽两亲性和破坏的β-折叠结构相结合,在4位上被d-Lys取代的非对映异构体在环状14残基肽GS14中相对于其他1到d取代引起了最大的特异性改善[ McInnes,C。等。 (2000)生物化学杂志。化学> 275 ,14287]。基于此信息,我们创建了一系列肽非对映异构体,仅在4位上被d-或l-氨基酸(Leu,Phe,Tyr,Asn,Lys和非手性Gly)取代。在这项研究中选择的氨基酸代表了一系列疏水性/亲水性,是20种天然氨基酸的子集。尽管Leu,Phe和Tyr的d和l取代都具有很强的溶血活性,但GS14中4位的亲水性d-氨基酸d-Lys和d-Asn的取代导致的溶血活性比在Leut,Phe和Tyr中的弱。 l-非对映异构体,表现出强烈的溶血作用。所有的l-取代也导致差的抗微生物活性和极低的TI,而基于残基的亲水性,d-取代的肽的抗微生物活性倾向于提高。 d-Lys是最极性和最有效的取代基,导致最高的TI。有趣的是,疏水性的 class =“ small-caps”> d -氨基酸取代物比 class =“ small-caps”> l -对映异构体具有优越的抗菌活性,尽管疏水性 class =“ small-caps”> d -氨基酸可增加非极性表面的疏水性。这些结果进一步支持了非极性面的疏水性作为对微生物特异性的主要影响的作用,但是也强调了破坏β-片层结构对抗菌活性的重要性。

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