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Host Cell Amplification of Nutritional Stress Contributes To Persistence in Chlamydia trachomatis

Nick D. Pokorzynski, Monisha R. Alla, Rey A. Carabeo

2022mBio14 citationsDOIOpen Access PDF

Abstract

Bacteria respond to nutritional stress through universal and unique mechanisms. Genome reduction in the Chlamydiaceae, a consequence of coevolution with their obligate eukaryotic hosts, has reduced their repertoire of stress response mechanisms. Here, we demonstrate that the infected host cell may provide the context within which universal stress responses emerge for Chlamydia trachomatis. We report that during starvation of the essential nutrients iron or tryptophan, a common response of the infected epithelial cell is the suppression of GTP biosynthesis, which induces a persistent developmental state in the pathogen. Thus, chlamydial persistence results from the combined effects of primary stresses on the pathogen and the host, with the latter eliciting a secondary host cell response that intensifies the inhospitable intracellular environment.

Topics & Concepts

ObligateChlamydia trachomatisChlamydiaBiologyCoevolutionGenomeChlamydiaceaeHost (biology)Persistence (discontinuity)BacteriaGeneticsComputational biologyEvolutionary biologyGeneVirologyEcologyEngineeringGeotechnical engineeringReproductive tract infections researchGut microbiota and healthUrinary Tract Infections Management
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