Université de Bordeaux, CNRS, Bordeaux INP, CBMN, UMR 5248, Institut Européen de Chimie et Biologie, 2 rue Robert Escarpit, F-33607 Pessac, France.
Swiss Light Source (SLS), Paul Scherrer Institute (PSI), Forschungstrasse 111, 5232 Villigen-PSI, Switzerland.
J Med Chem. 2021 Dec 9;64(23):17063-17078. doi: 10.1021/acs.jmedchem.1c00918. Epub 2021 Nov 22.
The bacterial DNA sliding clamp (SC), or replication processivity factor, is a promising target for the development of novel antibiotics. We report a structure-activity relationship study of a new series of peptides interacting within the SC (SC) binding pocket. Various modifications were explored including N-alkylation of the peptide bonds, extension of the N-terminal moiety, and introduction of hydrophobic and constrained residues at the C-terminus. In each category, single modifications were identified that increased affinity to SC. A combination of such modifications yielded in several cases to a substantially increased affinity compared to the parent peptides with in the range of 30-80 nM. X-ray structure analysis of 11 peptide/SC co-crystals revealed new interactions at the peptide-protein interface (i.e., stacking interactions, hydrogen bonds, and hydrophobic contacts) that can account for the improved binding. Several compounds among the best binders were also found to be more effective in inhibiting SC-dependent DNA synthesis.
细菌 DNA 滑动夹(SC)或复制延伸因子,是开发新型抗生素的有希望的靶标。我们报告了与 SC(SC)结合口袋内相互作用的一系列新肽的结构-活性关系研究。探索了各种修饰,包括肽键的 N-烷基化、N-末端部分的扩展以及在 C-末端引入疏水性和约束性残基。在每个类别中,都确定了单个修饰可以增加与 SC 的亲和力。此类修饰的组合在某些情况下会导致与母体肽相比,亲和力大大提高, 范围为 30-80 nM。11 个肽/ SC 共晶的 X 射线结构分析揭示了肽-蛋白界面的新相互作用(即,堆积相互作用、氢键和疏水接触),可以解释改善的结合。在所研究的最佳结合化合物中,有几个化合物在抑制 SC 依赖性 DNA 合成方面也更有效。
