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Printable Handouts
Navigable Slide Index
- Introduction
- Pathogens\Commensals at the mucosal level
- Urinary tract infections (UTI)
- UTI frequency
- Uropathogenic Escherichia coli virulence
- Asymptomatic carrier strains
- Uropathogenic E. coli vs. ABU strains
- Human UTI- resistance v. susceptibility
- Host resistance in the murine UTI model
- Innate immune control of host resistance
- Innate immune response and effector function
- How pathogenic bacteria activate a host response
- Uropathogenic E. coli, attachment and disease
- P fimbriae and recognition receptors
- Pathogen specific innate immune signaling (1)
- TLR4-ceramide interactions defined by FRET
- Proteomic and transcriptomic analysis
- Nuclear IRF-3 translocation
- Importance of identifying signaling pathways
- Pathogen specific innate immune signaling (2)
- IRF3 knock out
- IRF3 -/- phenotype
- IL8 receptor knock out
- IL-8 and IL-8R; neutrophils are crucial effector cells
- Neutrophil exodus across the mucosa
- mIL-8Rh-/-mice
- IL-8 receptor phenotype
- IL-8R KO phenotype
- Neutrophil entrapment in IL-8R KO mice
- Neutrophils accumulate in the kidneys
- mIL-8R KO mice develop renal scarring
- Acute and chronic pyelonephritis
- Conclusions, IRF3 and IL-8
- TLR4 -/- mice
- Asymptomatic bacteriuria in C3H/HeJ & Tlr4 KO's
- Conclusion: Loss of TLR4 protects
- Genetic variance affects UTI progression
- Genetic susceptibility to UTI
- Human UTI susceptibility
- Researching disease-associated polymorphisms
- IRF3 promoter polymorphisms in UTI patients
- The SNPs reduce IRF3 promoter activity
- Clinical studies to identify CXCR1 polymorphisms
- CXCR1 sequencing
- SNP1 affects AML1 dependent transcription
- SNP frequency in APN-prone patients and controls
- Variant frequency-APN-prone children vs. controls
- TLR4 - prediction from the mouse model
- Clinical studies to identify TLR4 polymorphisms
- Children with ABU have low TLR4 expression
- Many have looked for mutations in structural genes
- New TLR4 promoter polymorphisms
- SNP genotype frequency in children with UTI
- TLR4 promoter genotype in asymptomatic carriers
- Low response to infection in reporter assays
- Summary-TLR4, CXCR1, IRF3 role in UTI response
- Susceptibility to UTI can be inherited
- Commensalism vs. Virulence
- Future consequences for diagnosis and therapy
- Contributors & Thanks
Topics Covered
- Pathogens\Commensals at the mucosal level
- How pathogenic bacteria activate a host response
- Pathogen specific innate immune signaling
- Urinary tract infections (UTI)
- Uropathogenic E. coli vs. ABU strains
- TLR4, CXCR1, IRF3, IL8R role in UTI response
- Importance of identifying signaling pathways & crucial effector cells
- Acute/Chronic pyelonephritis & asymptomatic bacteriuria
- Genetics & UTI
- Researching disease-associated polymorphisms
- SNPs and their effect in APN & UTI
- Mutations in structural genes
- Response to infection in reporter assays
- Commensalism vs. Virulence
Links
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Talk Citation
Svanborg, C. (2012, June 11). Innate immunity in the genitourinary tract: genetics of susceptibility to disease or asymptomatic carriage [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/HUWI6906.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Catharina Svanborg has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
Innate immunity in the genitourinary tract: genetics of susceptibility to disease or asymptomatic carriage
Published on June 11, 2012
49 min
A selection of talks on Gynaecology & Obstetrics
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