Giridhar Chandrasekharan scite author profile

Trimethoprim, a preferred treatment for urinary tract infections, is becoming obsolete owing to the rapid dissemination of resistant E. coli. Although direct resistance mechanisms such as overexpression of a mutant FolA and dfr enzymes are well characterized, associated alterations that drive or sustain resistance are unknown. We identify the repertoire of resistance-associated perturbations by constructing and interrogating a transcriptome-integrated functional interactome. From the cross talk between perturbations in stress-response and metabolic pathways, we identify the critical dependence on serine hydroxymethyltransferase (GlyA) as an emergent vulnerability. Through its deletion, we demonstrate that GlyA is necessary to sustain high levels of resistance in both laboratory-evolved resistant E. coli and a multidrug-resistant clinical isolate. Through comparative evolution, we show that the absence of GlyA activity decelerates the acquisition of resistance in E. coli. Put together, our results identify GlyA as a promising target, providing a basis for the rational design of drug combinations.

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Rhizospheric life of Salmonella requires flagella-driven motility and EPS-mediated attachment to organic matter and enables cross-kingdom invasion

Karmakar

Nair

Chandrasekharan

et al. 2019

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Salmonella is an established pathogen of the members of the kingdom Animalia. Reports indicate that the association of Salmonella with fresh, edible plant products occurs at the pre-harvest state, i.e. in the field. In this study, we follow the interaction of Salmonella Typhimurium with the model plant Arabidopsis thaliana to understand the process of migration in soil. Plant factors like root exudates serve as chemo-attractants. Our ex situ experiments allowed us to track Salmonella from its free-living state to the endophytic state. We found that genes encoding two-component systems and proteins producing extracellular polymeric substances are essential for Salmonella to adhere to the soil and roots. To understand the trans-kingdom flow of Salmonella, we fed the contaminated plants to mice and observed that it invades and colonizes liver and spleen. To complete the disease cycle, we re-established the infection in plant by mixing the potting mixture with the fecal matter collected from the diseased animals. Our experiments revealed a cross-kingdom invasion by the pathogen via passage through a murine intermediate, a mechanism for its persistence in the soil and invasion in a non-canonical host. These results form a basis to break the life-cycle of Salmonella before it reaches its animal host and thus reduce Salmonella contamination of food products.

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Rewiring of one carbon metabolism in Salmonella serves as an excellent live vaccine against systemic salmonellosis

Datey

Shreenivas

Chandrasekharan

et al. 2018

Vaccine

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A Strategic Target Rescues Trimethoprim Sensitivity in <i>Escherichia coli</i>

et al. 2019

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Loss of resistance WT 4xR 32xR Laboratory-evolved TMP-resistant E. coli MIC of TMP } Differential transcriptome + Genome-scale protein interaction network } [3498 genes; 24542 interactions] acid-stress response biofilm formation folate pathway motility gadA, gadX, gadE Crosstalk between stress-response and metabolism [32xR-WT] rpoS fliA, fliZ iraP, csgD glyA gcv folA Dependence on glyA is an emergent vulnerability 32xR/Clinical isolate glyA 0.5 ug/mL

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