Department of Medicinal Chemistry, Uppsala University, Box 574, SE-751 23 Uppsala, Sweden.
Department of Cell and Molecular Biology, Uppsala University, Box 596, SE-751 24 Uppsala, Sweden.
Eur J Med Chem. 2018 Sep 5;157:1346-1360. doi: 10.1016/j.ejmech.2018.08.086. Epub 2018 Aug 30.
Type I signal peptidase, with its vital role in bacterial viability, is a promising but underexploited antibacterial drug target. In the light of steadily increasing rates of antimicrobial resistance, we have developed novel macrocyclic lipopeptides, linking P2 and P1' by a boronic ester warhead, capable of inhibiting Escherichia coli type I signal peptidase (EcLepB) and exhibiting good antibacterial activity. Structural modifications of the macrocyclic ring, the peptide sequence and the lipophilic tail led us to 14 novel macrocyclic boronic esters. It could be shown that macrocyclization is well tolerated in terms of EcLepB inhibition and antibacterial activity. Among the synthesized macrocycles, potent enzyme inhibitors in the low nanomolar range (e.g. compound 42f, EcLepB IC = 29 nM) were identified also showing good antimicrobial activity (e.g. compound 42b, E. coli WT MIC = 16 μg/mL). The unique macrocyclic boronic esters described here were based on previously published linear lipopeptidic EcLepB inhibitors in an attempt to address cytotoxicity and hemolysis. We show herein that structural changes to the macrocyclic ring influence both the cytotoxicity and hemolytic activity suggesting that the P2 to P1' linker provide means for optimizing off-target effects. However, for the present set of compounds we were not able to separate the antibacterial activity and cytotoxic effect.
I 型信号肽酶在细菌生存中起着至关重要的作用,是一个有前途但尚未充分开发的抗菌药物靶点。鉴于抗菌药物耐药率的稳步上升,我们开发了新型的大环脂肽,通过硼酸酯弹头将 P2 和 P1'连接起来,能够抑制大肠杆菌 I 型信号肽酶(EcLepB)并具有良好的抗菌活性。大环环、肽序列和疏水性尾部的结构修饰使我们得到了 14 种新型的大环硼酸酯。结果表明,大环化在抑制 EcLepB 和抗菌活性方面具有很好的耐受性。在所合成的大环中,发现了一些具有低纳摩尔效力的强效酶抑制剂(例如,化合物 42f,EcLepB IC=29 nM),同时也表现出良好的抗菌活性(例如,化合物 42b,E. coli WT MIC=16 μg/mL)。本文所描述的独特的大环硼酸酯基于先前发表的线性脂肽 EcLepB 抑制剂,旨在解决细胞毒性和溶血问题。我们在此表明,大环环的结构变化会影响细胞毒性和溶血活性,表明 P2 到 P1'的连接基提供了优化非靶标效应的手段。然而,对于目前这组化合物,我们还不能将抗菌活性和细胞毒性作用分开。
