Issue 6, 2023

Detection of intact vancomycin–arginine as the active antibacterial conjugate in E. coli by whole-cell solid-state NMR

Abstract

The introduction of new and improved antibacterial agents based on facile synthetic modifications of existing antibiotics represents a promising strategy to deliver urgently needed antibacterial candidates to treat multi-drug resistant bacterial infections. Using this strategy, vancomycin was transformed into a highly active agent against antibiotic-resistant Gram-negative organisms in vitro and in vivo through the addition of a single arginine to yield vancomycin–arginine (V–R). Here, we report detection of the accumulation of V–R in E. coli by whole-cell solid-state NMR using 15N-labeled V–R. 15N CPMAS NMR revealed that the conjugate remained fully amidated without loss of arginine, demonstrating that intact V–R represents the active antibacterial agent. Furthermore, C{N}REDOR NMR in whole cells with all carbons at natural abundance 13C levels exhibited the sensitivity and selectivity to detect the directly bonded 13C–15N pairs of V–R within E. coli cells. Thus, we also present an effective methodology to directly detect and evaluate active drug agents and their accumulation within bacteria without the need for potentially perturbative cell lysis and analysis protocols.

Graphical abstract: Detection of intact vancomycin–arginine as the active antibacterial conjugate in E. coli by whole-cell solid-state NMR

Article information

Article type
Research Article
Submitted
14 Apr 2023
Accepted
13 May 2023
First published
22 May 2023

RSC Med. Chem., 2023,14, 1192-1198

Author version available

Detection of intact vancomycin–arginine as the active antibacterial conjugate in E. coli by whole-cell solid-state NMR

S. H. Werby, J. Brčić, M. B. Chosy, J. Sun, J. T. Rendell, L. F. Neville, P. A. Wender and L. Cegelski, RSC Med. Chem., 2023, 14, 1192 DOI: 10.1039/D3MD00173C

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