Many birds with one stone: targeting the (p)ppGpp signaling pathway of bacteria to improve antimicrobial therapy.

Winning the war against resistant bacteria will require a change of paradigm in antibiotic discovery. A promising new direction is the targeting of non-essential pathways required for successful infection, such as quorum-sensing, virulence, and biofilm formation. Similarly important will be strategies to prevent or revert antibiotic resistance. Here, we argue that the (p)ppGpp signaling pathway should be a prime target of this effort, since its inactivation could potentially achieve all these goals simultaneously. The hyperphosphorylated guanine nucleotide (p)ppGpp is an ancient and universal second messenger of bacteria that has pleotropic effects on the physiology of these organisms. Initially described as a stress signal-an alarmone-it is now clear that (p)ppGpp plays a more general and fundamental role in bacterial adaptation, by integrating multiple internal and environmental signals to establish the optimal balance between growth and maintenance functions at any given time. Given such centrality, perturbation of the (p)ppGpp pathway will affect bacteria in multiple ways, from the ability to adjust metabolism to the available nutrients to the capacity to differentiate into developmental forms adapted to colonize different niches. Here, we provide an overview of the (p)ppGpp pathway, how it affects bacterial growth, survival and virulence, and its connection with antibiotic tolerance and persistence. We will emphasize the dysfunctions of cells living without (p)ppGpp and finalize by reviewing the efforts and prospects of developing inhibitors of this pathway, and how these could be employed to improve current antibiotic therapy. © International Union for Pure and Applied Biophysics (IUPAB) and Springer-Verlag GmbH Germany, part of Springer Nature 2021.