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SpoT Induces Intracellular <i>Salmonella</i> Virulence Programs in the Phagosome

Liam F. Fitzsimmons, Lin Liu, Sashi Kant, Ju-Sim Kim, James Karl A. Till, Jessica Jones‐Carson, Steffen Porwollik, Michael McClelland, Andrés Vázquez‐Torres

2020mBio25 citationsDOIOpen Access PDF

Abstract

Pathogenic bacteria experience nutritional challenges during colonization and infection of mammalian hosts. Binding of the alarmone nucleotide guanosine tetraphosphate (ppGpp) to RNA polymerase coordinates metabolic adaptations and virulence gene transcription, increasing the fitness of diverse Gram-positive and Gram-negative bacteria as well as that of actinomycetes. Gammaproteobacteria such as Salmonella synthesize ppGpp by the combined activities of the closely related RelA and SpoT synthetases. Due to its profound inhibitory effects on growth, ppGpp must be removed; in Salmonella , this process is catalyzed by the vital hydrolytic activity of the bifunctional SpoT protein. Because SpoT hydrolase activity is essential in cells expressing a functional RelA, we have a very limited understanding of unique roles these two synthetases may assume during interactions of bacterial pathogens with their hosts. We describe here a SpoT truncation mutant that lacks ppGpp synthetase activity and all C-terminal regulatory domains but retains excellent hydrolase activity. Our studies of this mutant reveal that SpoT uniquely senses the acidification of phagosomes, inducing virulence programs that increase Salmonella fitness in an acute model of infection. Our investigations indicate that the coexistence of RelA/SpoT homologues in a bacterial cell is driven by the need to mount a stringent response to a myriad of physiological and host-specific signatures.

Topics & Concepts

SalmonellaStringent responseMicrobiologyBiologyIntracellularVirulenceMutantPathogenicity islandGuanosineBiochemistryBacteriaCell biologyGeneGeneticsSalmonella and Campylobacter epidemiologyBacterial Genetics and BiotechnologyVibrio bacteria research studies
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