Indole signaling in <i>Escherichia coli</i> : a target for antivirulence therapy?
Sofia Razzaq Meo, Tom Van de Wiele, Tom Defoirdt
Abstract
Pathogenic Escherichia coli are a major cause of infections in both humans and animals, leading to conditions such as severe diarrheal diseases, urinary tract infections, enteritis, and septicemia. To combat bacterial infections, antibiotics are widely utilized. However, the extensive and inappropriate use of antibiotics has fueled the development and spread of antibiotic resistance, posing a significant challenge to the effective treatment of E. coli. There is consequently an urgent need to explore alternative therapies to control such infections. This review provides an overview of the recent findings concerning indole signaling in E. coli. E. coli uses indole as a quorum sensing molecule, and indole signaling has been reported to decrease various virulence factors in pathogenic E. coli, including motility, biofilm formation, adherence to host cells, expression of the LEE pathogenicity island, and formation of attaching and effacing lesions. This makes indole signaling an interesting target for the development of new therapeutics in the framework of antivirulence therapy. Both natural and synthetic indole analogues have been explored as potential virulence inhibitors. This alternative approach could be advantageous, as it will exert less selective pressure for resistance development than conventional antibiotics.