Strengths and Limitations of Model Systems for the Study of Urinary Tract Infections and Related Pathologies

Barber, Amelia E.; Norton, J. Paul; Wiles, Travis J.; Mulvey, Matthew

doi:10.1128/mmbr.00067-15

Cited by 62 publications

(58 citation statements)

References 247 publications

(234 reference statements)

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“…Mouse models of UTI recapitulate the histological markers of human UTIs and multiple mouse models have been developed that each reflect a portion of the diversity of UTI pathology seen in the clinic [reviewed in (59, 60)]. Consistent with their ability to cause UTIs in humans, many of our UAEC strains were able to elicit key hallmarks of human pathogenesis in mouse models of UTI, including acute cystitis, the formation of IBCs, the development of chronic cystitis, and persistence in quiescent intracellular reservoirs.…”

Section: Discussionmentioning

confidence: 99%

Bacterial virulence phenotypes of Escherichia coli and host susceptibility determine risk for urinary tract infections

et al. 2017

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Urinary tract infections (UTIs) are caused by uropathogenic Escherichia coli (UPEC) strains. In contrast to many enteric E. coli pathogroups, no genetic signature has been identified for UPEC strains. We conducted a high-resolution comparative genomic study using E. coli isolates collected from the urine of women suffering from frequent recurrent UTIs. These isolates were genetically diverse and varied in urovirulence, or the ability to infect the bladder of a mouse model of cystitis. Importantly, we found no set of genes, including previously defined putative urovirulence factors (PUFs), that were predictive of urovirulence. In addition, in some patients, the E. coli strain causing a recurrent UTI had fewer PUFs than the supplanted strain. In competitive experimental infections in mice, the supplanting strain was more efficient at colonizing the mouse bladder than the supplanted strain. Despite the lack of a clear genomic signature for urovirulence, comparative transcriptomic and phenotypic analyses revealed that the expression of key conserved functions during culture, such as motility and sugar metabolism, could be used to predict subsequent mouse bladder colonization. Taken together, our findings suggest that UTI risk and outcome may be determined by complex interactions between host susceptibility and the urovirulence potential of diverse bacterial strains.

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Section: Discussionmentioning

confidence: 99%

Bacterial virulence phenotypes of Escherichia coli and host susceptibility determine risk for urinary tract infections

et al. 2017

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“…Other etiologies include infections from Staphylococcus, Klebsiella, Enterobacter, Proteus , and Enterococcus ; these organisms become particularly relevant during catheter-associated and hospital-acquired infections [7]. The pathogenic cascade of UPEC cystitis has been extensively studied in recent years, largely in cell-culture and mouse models, as mice recapitulate many facets of the bladder epithelial environment (reviewed in [8]). Through these studies, unprecedented light has been shed on the molecular and cellular basis of infection.…”

Section: A Pervasive and Persistent Problemmentioning

confidence: 99%

Urinary Tract Infection: Pathogenesis and Outlook

McLellan

Hunstad

2016

Trends in Molecular Medicine

276

206

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The clinical syndromes comprising urinary tract infection (UTI) continue to exert significant impact on millions of patients worldwide, most of whom are otherwise healthy women. Antibiotic therapy for acute cystitis does not prevent recurrences, which plague up to one fourth of women after an initial UTI. Rising antimicrobial resistance among uropathogenic bacteria further complicates therapeutic decisions, necessitating new approaches based on fundamental biological investigation. In this review, we highlight contemporary advances in the field of UTI pathogenesis and how these might inform both our clinical perspective and future scientific priorities.

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“…However, direct injection of uropathogenic bacteria intravenously has been proven to be a beneficial model for urosepsis (Barber et al, 2016). The chosen uropathogenic bacterium (ARD6, O6:K13:H1) commonly causes urinary tract infection in humans and, in addition to HlyA, also expresses other virulence enhancing proteins such as P-fimbriae (Zingler et al, 1992).…”

Section: Introductionmentioning

confidence: 99%

P2X1, P2X4, and P2X7 Receptor Knock Out Mice Expose Differential Outcome of Sepsis Induced by α-Haemolysin Producing Escherichia coli

Greve

Skals

Fagerberg

et al. 2017

Front. Cell. Infect. Microbiol.

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α-haemolysin (HlyA)-producing Escherichia coli commonly inflict severe urinary tract infections, including pyelonephritis, which comprises substantial risk for sepsis. In vitro, the cytolytic effect of HlyA is mainly mediated by ATP release through the HlyA pore and subsequent P2X1/P2X7 receptor activation. This amplification of the lytic process is not unique to HlyA but is observed by many other pore-forming proteins including complement-induced haemolysis. Since free hemoglobin in the blood is known to be associated with a worse outcome in sepsis one could speculate that inhibition of P2X receptors would ameliorate the course of sepsis. Surprisingly, this study demonstrates that P2X1−/− and P2X4−/− mice are exceedingly sensitive to sepsis with uropathogenic E. coli. These mice have markedly lower survival, higher cytokine levels and activated intravascular coagulation. Quite the reverse is seen in P2X1−/− mice, which had markedly lower cytokine levels and less coagulation activation compared to controls after exposure to uropathogenic E. coli. The high cytokine levels in the P2X7−/− mouse are unexpected, since P2X7 is implicated in caspase-1-dependent IL-1β production. Here, we demonstrate that IL-1β production during sepsis with uropathogenic E. coli is mediated by caspase-8, since caspase-8 and RIPK3 double knock out mice show substantially lower cytokine during sepsis and increased survival after injection of TNFα. These data support that P2X7 and P2X4 receptor activation has a protective effect during severe E. coli infection.

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Strengths and Limitations of Model Systems for the Study of Urinary Tract Infections and Related Pathologies

Cited by 62 publications

References 247 publications

Bacterial virulence phenotypes of Escherichia coli and host susceptibility determine risk for urinary tract infections

Bacterial virulence phenotypes of Escherichia coli and host susceptibility determine risk for urinary tract infections

Urinary Tract Infection: Pathogenesis and Outlook

P2X1, P2X4, and P2X7 Receptor Knock Out Mice Expose Differential Outcome of Sepsis Induced by α-Haemolysin Producing Escherichia coli

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