Abstract

The four species of chlamydiae cause a variety of serious diseases in both humans and in many animal species. The most serious chlamydial diseases of humans include trachoma, pneumonia, and a spectrum of different sexually transmitted conditions. Millions of people are debilitated by these diseases worldwide. The chlamydiae are obligate intracellular bacterial pathogens that develop within a non-acidified vacuole (the inclusion) within infected host cells. The biology of inclusion formation and development is only beginning to be understood. A collection of proteins produced by Chlamydia psittaci (IncA, IncB, IncC) are localized to the inclusion membrane during chlamydial development. These are the only known proteins, of either chlamydial or host origin, that are localized to the membrane of the chlamydial inclusion. Recently IncA was shown to be phosphorylated by host cell enzymes and exposed to the cytoplasm at the surface of the inclusion. These results suggest IncA may be important in the interaction of the inclusion with its intracellular environment. Functional characterization of IncA/B/C is complicated by the lack of a genetic system in the chlamydiae, as well as the absence of similarity between these proteins and any sequences in the databases. The overall goal of this research proposal is to identify the functions of IncA/B/C in the chlamydial developmental process. The three Aims in this proposal describe methodologies designed to achieve that goal. The experiments proposed in Aim 1 are designed to identify domains of IncA/B/C exposed to the cytoplasm in infected cells.
Aim 2 utilizes the yeast two-hybrid system and bacteriophage display methodologies to examine interactions between IncA/B/C and proteins of either host or chlamydial origin that may be present in the cytoplasm or within the inclusion.
Aim 3 describes the use of two expression systems, vaccinia virus and eukaryotic expression plasmids, to examine and mutagenize incA/B/C within host cells. These expression experiments will be conducted both in the absence or the presence of a parallel chlamydial infection. These different approaches will examine the unique biology of IncA/B/C as well as explore new technologies for investigating chlamydial interactions with mammalian cells.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
First Independent Research Support & Transition (FIRST) Awards (R29)
Project #
5R29AI042869-05
Application #
6510817
Study Section
Bacteriology and Mycology Subcommittee 2 (BM)
Program Officer
Taylor, Christopher E,
Project Start
1998-05-01
Project End
2004-04-30
Budget Start
2002-05-01
Budget End
2004-04-30
Support Year
5
Fiscal Year
2002
Total Cost
$68,208
Indirect Cost

  Institution

Name
Oregon State University
Department
Microbiology/Immun/Virology
Type
Schools of Arts and Sciences
DUNS #
053599908
City
Corvallis
State
OR
Country
United States
Zip Code
97339

  Publications

Alzhanov, Damir T; Weeks, Sara K; Burnett, Jeffrey R et al. (2009) Cytokinesis is blocked in mammalian cells transfected with Chlamydia trachomatis gene CT223. BMC Microbiol 9:2
Alzhanov, Damir T; Suchland, Robert J; Bakke, Antony C et al. (2007) Clonal isolation of chlamydia-infected cells using flow cytometry. J Microbiol Methods 68:201-8
Suchland, Robert J; Rockey, Daniel D; Weeks, Sara K et al. (2005) Development of secondary inclusions in cells infected by Chlamydia trachomatis. Infect Immun 73:3954-62
Alzhanov, Damir; Barnes, Jennifer; Hruby, Dennis E et al. (2004) Chlamydial development is blocked in host cells transfected with Chlamydophila caviae incA. BMC Microbiol 4:24
Dugan, Jae; Rockey, Daniel D; Jones, Loren et al. (2004) Tetracycline resistance in Chlamydia suis mediated by genomic islands inserted into the chlamydial inv-like gene. Antimicrob Agents Chemother 48:3989-95
Rockey, Daniel D; Viratyosin, Wasna; Bannantine, John P et al. (2002) Diversity within inc genes of clinical Chlamydia trachomatis variant isolates that occupy non-fusogenic inclusions. Microbiology 148:2497-505
Brown, W J; Skeiky, Y A W; Probst, P et al. (2002) Chlamydial antigens colocalize within IncA-laden fibers extending from the inclusion membrane into the host cytosol. Infect Immun 70:5860-4
Rockey, Daniel D; Scidmore, Marci A; Bannantine, John P et al. (2002) Proteins in the chlamydial inclusion membrane. Microbes Infect 4:333-40
Viratyosin, Wasna; Campbell, Lee Ann; Kuo, Cho-Chou et al. (2002) Intrastrain and interstrain genetic variation within a paralogous gene family in Chlamydia pneumoniae. BMC Microbiol 2:38
Brown, W J; Rockey, D D (2000) Identification of an antigen localized to an apparent septum within dividing chlamydiae. Infect Immun 68:708-15

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