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What evidence is there that the type III secretion system and toxins are involved in disease? ... Students: David Doroquez. Krishna Surti. Mueen Ghani. Dai ... – PowerPoint PPT presentation

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Title: What


1
Whats all this got
to do with patients?
  • What evidence is there that the type III
    secretion system and toxins are involved in
    disease?
  • What evidence is there regarding the difference
    between colonizing strains and strains that cause
    infections?

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Gross autopsy Necrotic lung
4
Analysis of P.aeruginosa strains from
critically ill patients
  • P.aeruginosa strains from patients produced
    either ExoU or ExoS, but not both
  • All of the deaths in ICU patients infected
  • with P.aeruginosa were associated with a
    strain secreting type III toxins strains
    secreting type III toxins were also associated
    with pneumonia, bacteremia and sepsis
  • J Infect Disease 1831767, 2001

5
Prevalence of type III genes
in P.aeruginosa strains
  • Evaluated 100 strains from urine, blood, wound
    and lungs
  • All isolates have genes for type III apparatus
    but toxin genes vary among isolates
  • 72 isolates have exoS and 28 have exoU
    genes--no strains had both
  • CF strains did not have exoU gene
  • Microbiology
    20011472659

6
Virulence Factors in VAP
  • 35 VAP isolates performed pulse-field gel
    electrophoresis (non-clonal)
  • 19/35 died (54)
  • 9/35 recovered from VAP 6/35 relapsed
  • 27/35 (77) for type III secretion
  • 10/35 (29) for ExoU--90 severe disease vs
    38of patients with non-type III isolates
  • Isolates either had exoS gene or exoU gene
  • Crit Care Med
    200230521

7
P.aeruginosa strains from blood
  • 92 unique strains divided into 4 groups
  • Profiles of TTSS protein secretion on SDS-PAGE
    and kinetics of cytotoxicity
  • 1-28 isolates--rapidly (1h) cytotoxic
    (ExoU and
    ExoT)
  • 2-52 slower cytotoxic (ExoS ExoT)
  • 3-15 some cell death 34h no TTSS
  • 4- 4 no cytotoxicity no TTSS
  • J Infectious Disease 2003188512

8
O serotypes-Utilized to characterize P. aeruginosa
  • LPS O antigen used to classify strains 20
    different serotypes based on B-band of LPS
  • The presence or absence of exoU correlates with O
    serotype 1, 10, 11
  • The presence of O serotypes 3,4,6,12,16 had exoS
    gene
  • J Infectious Disease 2003188512

9
Single-nucleotide-Polymorphism Analysis
of Type III toxins in Strains Causing
Disease
  • Not all strains have genes for the type III
    toxins PAO1 missing exoU and PA103 missing exoS
  • Evaluated 23 clinical strains
  • exoU had smallest number of SNPs (14)--highly
    conserved
  • exoY had 34 SNPs
  • Targeting of toxins or other bacterial proteins
    will require analysis of clinical strains --could
    utilize PCR for diagnostic purposes
  • J Clin Microb 2003413526-3531

10
Quorum Sensing in VAP
  • 442 P.aeruginosa isolates colonizing respiratory
    tract of 13 patients during first 3 days of
    colonization-9 genetically independent strains
  • Evaluated the ability of the strains to produce
    QS dependent virulence factors--6/9 strains
    produced autoinducer associated virulence
    products
  • J Clin Microb 200442 554-562

11
Conclusions re QS and biofilms in intubated
patients
  • Results suggest P.aeruginosa strains colonizing
    intubated patients had less capacity for biofilm
    production compared to strains found in CF
    patients
  • About 20 of isolates were deficient in
    autoinducer production and 2/3 strains involved
    in invasive infections were deficient in
    autoinducer production (and had been proficient
    prior to invasive disease)
  • J Clin Microb 200442
    554-562

12
New Research Goals
  • Can we use genetic tools to diagnose and quantify
    P. aeruginosa in ICU patients?
  • Can we detect which Pseudomonas toxins are being
    secreted in ICU patients?
  • Can we distinguish P.aeruginosa strains that just
    colonize vs the strains that cause disease
    genetically?
  • Can we design new therapeutics to block
    Pseudomonas-induced lung disease?

13
New SCCOR Translational Grant
  • Collect daily endotracheal aspirates from all
    intubated patients in the ICUs--find P.aeruginosa
    in patients who are not sick
  • Screen for P.aeruginosa
  • Characterize P.aeruginosa in all
    patients--distinguish strains that colonize vs
    infect patients by genetics and phenotypes
  • Lavage patients to obtain P.aeruginosa in lungs
    and to evaluate for bacterial genetic and protein
    expression

14
SCCOR interim results
  • So far have screened endotracheal aspirates from
    600 intubated patients every day and will add a
    childrens hospital and neonatal unit
  • 75 patients grew P.aeruginosa
  • 19/75 patients had bronchoalveolar lavages
  • 11/75 patients grew P.aeruginosa for 1 day-and
    either were extubated or the bacteria did not
    grow again
  • Have now obtained permission to routinely
    screen patients and lavages are now routine care
    to diagnose VAP

15
CONCLUSIONS
  • Pseudomonas aeruginosa has multiple virulence
    systems and products--however, it appears that
    the type III secretion system and the type III
    toxins are very important in the pathogenesis of
    acute lung injury and invasive disease
  • Blockade of the type III system is a reasonable
    therapeutic target

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Acknowledgements
  • Ichidai Kudoh, M.D., Ph.D.
  • Satoru Hashimoto, M.D., Ph.D.
  • Hiroshi Miyazaki, M.D.
  • Jean Francois Pittet, M.D.
  • Christian Jayr, M.D.
  • Kiryoyasu Kurahashi, M.D.
  • Junichi Fujimoto, M.D.
  • Arup Roy-Burman, M.D.
  • Britta Swanson, Ph.D.
  • Noburou Shime, M.D., Ph.D.

24
Acknowledgements continued
  • Karine Faure, M.D.
  • Kendra Rumbaugh, Ph.D.
  • Razzu Allmond, M.D.
  • Matthew Haight, M.D.
  • Temitayo Ajayi, M.D.

25
Acknowledgements continued
  • Karine Faure, M.D.
  • Kendra Rumbaugh, Ph.D.
  • Razzu Allmond, M.D.
  • Matthew Haight, M.D.
  • Temitayo Ajayi, M.D.

26
And Students who helped
  • Jim Nemechek
  • Lauren Rattray
  • Denise Grimaldo
  • Thong Nguyen
  • Timur Karaca
  • Dustin Mark
  • Vinh Nguyen
  • Jennifer Lee
  • Elizabeth Thomas
  • Ticey Long

27
Students cont
  • Mehdi Meghood
  • James Kang
  • Robert Su
  • Lauren Rattray
  • Denise Grimaldo
  • Thong Nguyen
  • Dustin Mark

28
Final Students
  • David Doroquez
  • Krishna Surti
  • Mueen Ghani
  • Dai Pho
  • Arlene Kavanagh
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