Abstract

Genetically engineered mice with immune dysregulation have been used with increasing success in attempting to unravel and comprehend IBD in humans. IBD is considered to be the result of a combination of genetic and environmental factors. Microbial flora are undoubtedly an important component of the disease process, in which microbial antigens are thought to initiate and promote inflammation, particularly in the presence of immune dysregulation or an impaired mucosal barrier in the susceptible host. The understanding of the complex microecology of the distal intestine is extremely limited because of the tedious nature of identifying individual bacterial species and strains by conventional methods, and the inability to culture many fastidious commensal organisms. To circumvent this lack of bacterial speciation, gnotobiotic animals colonized with known microbiota have been used to great advantage. A standardized microbiota used in colonizing germfree rodents referred to """"""""Altered Schaedler Flora"""""""" (ASF) was developed. Because of the limitations of an in vivo monitoring system used to identify the 8 anaerobic bacterial species in ASF, we recently characterized their phylogenetic positions relative to known bacteria by utilizing 16S rRNA sequence analysis. This proposal will use molecular techniques, based on quantitative PCR of ASF 1 6S rRNA, to screen the microbial diversity of the murine gut and ascertain how microflora dynamics, under defined experimental conditions, with and without helicobacters, influence initiation and progression of IBD in the mouse. Specifically we will 1) characterize, using molecular techniques, the identification, quantification and distribution of Altered Schaedler's Flora (ASF) in the gastrointestinal tract of the IL-1O-/- and the C57BL mouse. 2) Determine how enteropathogenic Helicobacter spp. associated typhlocolitis in the lL-1O-/- mice alters the microecology of the lower bowel and correspondingly, ascertain whether and how individual species in ASF influence the progression or attenuation of chronic intestinal inflammation. 3) Determine microbial dynamics of ASF after physiological and anatomical perturbation of the lower bowel in mice as well as altering host genotype an how these changes influence subsequent induction of typhlocolitis and possibly colonic adenocarcinoma induced by Helicobacter spp. 4) Determine perturbations of ASF and Helicobacter spp. prior and subsequent to oral vaccination with Helicobacter spp. antigens and mucosal adjuvants, elucidate how these vaccine strategies influence microflora dynamics and impact gut cytokine responses.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI050952-02
Application #
6620792
Study Section
General Medicine A Subcommittee 2 (GMA)
Program Officer
Taylor, Katherine A
Project Start
2002-04-01
Project End
2006-03-31
Budget Start
2003-04-01
Budget End
2004-03-31
Support Year
2
Fiscal Year
2003
Total Cost
$331,000
Indirect Cost

  Institution

Name
Massachusetts Institute of Technology
Department
Veterinary Sciences
Type
Other Domestic Higher Education
DUNS #
001425594
City
Cambridge
State
MA
Country
United States
Zip Code
02139

  Publications

Cacioppo, Laura D; Turk, Michelle L; Shen, Zeli et al. (2012) Natural and experimental Helicobacter pullorum infection in Brown Norway rats. J Med Microbiol 61:1319-23
Cacioppo, Laura D; Shen, Zeli; Parry, Nicola M et al. (2012) Resistance of Sprague-Dawley Rats to infection with Helicobacter pullorum. J Am Assoc Lab Anim Sci 51:803-7
Shen, Z; Feng, Y; Rogers, A B et al. (2009) Cytolethal distending toxin promotes Helicobacter cinaedi-associated typhlocolitis in interleukin-10-deficient mice. Infect Immun 77:2508-16
Garcia, Alexis; Ihrig, Melanie M; Fry, Rebecca C et al. (2008) Genetic susceptibility to chronic hepatitis is inherited codominantly in Helicobacter hepaticus-infected AB6F1 and B6AF1 hybrid male mice, and progression to hepatocellular carcinoma is linked to hepatic expression of lipogenic genes and immune function-a Infect Immun 76:1866-76
Alyamani, Essam J; Brandt, Petra; Pena, Jeremy A et al. (2007) Helicobacter hepaticus catalase shares surface-predicted epitopes with mammalian catalases. Microbiology 153:1006-16
Lee, Chung-Wei; Rao, Varada P; Rogers, Arlin B et al. (2007) Wild-type and interleukin-10-deficient regulatory T cells reduce effector T-cell-mediated gastroduodenitis in Rag2-/- mice, but only wild-type regulatory T cells suppress Helicobacter pylori gastritis. Infect Immun 75:2699-707
Rao, Varada P; Poutahidis, Theofilos; Fox, James G et al. (2007) Breast cancer: should gastrointestinal bacteria be on our radar screen? Cancer Res 67:847-50
Fox, James G; Wang, Timothy C (2007) Inflammation, atrophy, and gastric cancer. J Clin Invest 117:60-9
Ge, Zhongming; Feng, Yang; Taylor, Nancy S et al. (2006) Colonization dynamics of altered Schaedler flora is influenced by gender, aging, and Helicobacter hepaticus infection in the intestines of Swiss Webster mice. Appl Environ Microbiol 72:5100-3
Rao, Varada P; Poutahidis, Theofilos; Ge, Zhongming et al. (2006) Proinflammatory CD4+ CD45RB(hi) lymphocytes promote mammary and intestinal carcinogenesis in Apc(Min/+) mice. Cancer Res 66:57-61

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