Bacterial virulence regulation through soluble peptidoglycan fragments sensing and response: knowledge gaps and therapeutic potential

Given the growing clinical-epidemiological threat posed by the phenomenon of antibiotic resistance, new therapeutic options are urgently needed, especially against top nosocomial pathogens such as those within the ESKAPE group. In this scenario, research is pushed to explore therapeutic alternatives...

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Bibliographic Details
Authors: Escobar-Salom, Maria, Barceló, Isabel María, Jordana-Lluch, Elena, Torrens, Gabriel, Oliver, Antonio, Juan, Carlos
Format: article
Publication Date:2023
Country:España
Institution:Conselleria de Salut i Consum del Govern de les Illes Balears
Repository:Docusalut
Language:English
OAI Identifier:oai:docusalut.com:20.500.13003/18967
Online Access:https://hdl.handle.net/20.500.13003/18967
Access Level:Open access
Keyword:Bacterial Proteins
Peptidoglycan
Bacteria
beta-Lactamases
Virulence
Cell Wall
Pared Celular
Virulencia
Peptidoglicano
Proteínas Bacterianas
beta-Lactamasas
Bacterias
Description
Summary:Given the growing clinical-epidemiological threat posed by the phenomenon of antibiotic resistance, new therapeutic options are urgently needed, especially against top nosocomial pathogens such as those within the ESKAPE group. In this scenario, research is pushed to explore therapeutic alternatives and, among these, those oriented toward reducing bacterial pathogenic power could pose encouraging options. However, the first step in developing these antivirulence weapons is to find weak points in the bacterial biology to be attacked with the goal of dampening pathogenesis. In this regard, during the last decades some studies have directly/indirectly suggested that certain soluble peptidoglycan-derived fragments display virulence-regulatory capacities, likely through similar mechanisms to those followed to regulate the production of several β-lactamases: binding to specific transcriptional regulators and/or sensing/activation of two-component systems. These data suggest the existence of intra- and also intercellular peptidoglycan-derived signaling capable of impacting bacterial behavior, and hence likely exploitable from the therapeutic perspective. Using the well-known phenomenon of peptidoglycan metabolism-linked β-lactamase regulation as a starting point, we gather and integrate the studies connecting soluble peptidoglycan sensing with fitness/virulence regulation in Gram-negatives, dissecting the gaps in current knowledge that need filling to enable potential therapeutic strategy development, a topic which is also finally discussed.