Mbio
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Experiments using bacteriophage (phage) to infect bacterial strains have helped define some basic genetic concepts in microbiology, but our understanding of the complexity of bacterium-phage interactions is still limited. As the global threat of antibiotic resistance continues to increase, phage therapy has reemerged as an attractive alternative or supplement to treating antibiotic-resistant bacterial infections. Further, the long-used method of phage typing to classify bacterial strains is being replaced by molecular genetic techniques. ⋯ Whole-genome sequencing has allowed modernization of the investigations into phage-bacterium interactions. Here, using E. coli O157 and T4 bacteriophage as a model, we have exploited a genome-wide fitness assay to investigate all genes involved in defining phage resistance or susceptibility. This knowledge of the genetic determinants of phage resistance and susceptibility can be used to design bespoke phage combinations targeted to specific bacterial infections for successful infection eradication.
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The mammalian stages of the parasite Trypanosoma cruzi, the causative agent of Chagas disease, exhibit a wide host species range and extensive within-host tissue distribution. These features, coupled with the ability of the parasites to persist for the lifetime of the host, suggest an inherent capacity to tolerate changing environments. To examine this potential, we studied proliferation and cell cycle dynamics of intracellular T. cruzi amastigotes experiencing transient metabolic perturbation or drug pressure in the context of an infected mammalian host cell. ⋯ Such tissue-resident T. cruzi amastigotes are refractory to immune-mediated clearance and to drug treatment, suggesting that in addition to exploiting immune avoidance mechanisms, amastigotes can facilitate their survival by adapting flexibly to diverse environmental stressors. We discovered that T. cruzi intracellular amastigotes exhibit growth plasticity as a strategy to adapt to and rebound from environmental stressors, including metabolic blockades, nutrient starvation, and sublethal exposure to the first-line therapy drug benznidazole. These findings have important implications for understanding parasite persistence, informing drug development, and interpreting drug efficacy.