Abstract

Over the past decade, numerous Borrelia burgdorferi proteins have been cloned and sequenced, while clinical and animal studies have delineated the basic microbiological events of Lyme disease. In contrast, we have a comparatively poor understanding of B. burgdorferi membrane biology and how general features of borrelial membrane architecture facilitate immune evasion during infection. Based upon extensive data obtained during the current funding period, the investigators have developed a new model of B. burgdorferi molecular architecture which helps to explain the bacterium's remarkable """"""""immunoevasiveness"""""""". According to this model (1) the B. burgdorferi outer membrane contains uncharacterized poorly immunogenic membrane proteins in addition to well characterized outer surface lipoproteins, (2) the preponderance of outer surface proteins (Osps) A and B is sequestered within the periplasmic space (and therefore unavailable as targets for borreliacidal antibody), and (3) novel membrane proteins may be expressed during infection. Their first two Specific Aims describe two complimentary approaches for the molecular characterization of novel borrelial outer membrane proteins. The first is based upon a recently developed procedure for isolating B. burgdorferi outer membranes, while the second identifies candidate outer membrane proteins whose export signals are fused with an E. coli alkaline phosphatase (PhoA) reporter. Studies in Specific Aim 1 will be expedited by the fact that three conserved B. burgdorferi outer membrane proteins already have been identified in isolated outer membranes.
Specific Aim 2 also includes detailed studies of three novel candidate outer membrane proteins, including an OspF homologue (designated BbK2.10) which is expressed only in vivo and which appears to be a member of a lipoprotein family. Experiments in our third Specific Aim will explore key ramifications of our findings that only small amounts of OspA and OspB are surface-exposed. Taken as a whole, these Specific Aims encompass our long term goal which is to integrate studies of B. burgdorferi membrane biology, Lyme disease pathogenesis, and vaccine development.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
3R01AI029735-10S1
Application #
6141104
Study Section
Special Emphasis Panel (ZRG5 (04))
Program Officer
Baker, Phillip J
Project Start
1990-04-01
Project End
2001-01-31
Budget Start
1999-04-01
Budget End
2000-01-31
Support Year
10
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
University of Connecticut
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
City
Farmington
State
CT
Country
United States
Zip Code
06030

  Publications

Caimano, Melissa J (2018) Generation of Mammalian Host-Adapted Borrelia burgdorferi by Cultivation in Peritoneal Dialysis Membrane Chamber Implantation in Rats. Methods Mol Biol 1690:35-45
Nally, Jarlath E; Grassmann, Andre A; Planchon, Sébastien et al. (2017) Pathogenic Leptospires Modulate Protein Expression and Post-translational Modifications in Response to Mammalian Host Signals. Front Cell Infect Microbiol 7:362
Hawley, Kelly L; Cruz, Adriana R; Benjamin, Sarah J et al. (2017) IFN? Enhances CD64-Potentiated Phagocytosis of Treponema pallidum Opsonized with Human Syphilitic Serum by Human Macrophages. Front Immunol 8:1227
Grove, Arianna P; Liveris, Dionysios; Iyer, Radha et al. (2017) Two Distinct Mechanisms Govern RpoS-Mediated Repression of Tick-Phase Genes during Mammalian Host Adaptation by Borrelia burgdorferi, the Lyme Disease Spirochete. MBio 8:
Puthenveetil, Robbins; Kumar, Sanjiv; Caimano, Melissa J et al. (2017) The major outer sheath protein forms distinct conformers and multimeric complexes in the outer membrane and periplasm of Treponema denticola. Sci Rep 7:13260
Groshong, Ashley M; Dey, Abhishek; Bezsonova, Irina et al. (2017) Peptide Uptake Is Essential for Borrelia burgdorferi Viability and Involves Structural and Regulatory Complexity of its Oligopeptide Transporter. MBio 8:
Kenedy, Melisha R; Scott 2nd, Edgar J; Shrestha, Binu et al. (2016) Consensus computational network analysis for identifying candidate outer membrane proteins from Borrelia spirochetes. BMC Microbiol 16:141
Gulia-Nuss, Monika; Nuss, Andrew B; Meyer, Jason M et al. (2016) Genomic insights into the Ixodes scapularis tick vector of Lyme disease. Nat Commun 7:10507
Miller, Daniel P; Oliver Jr, Lee D; Tegels, Brittney K et al. (2016) The Treponema denticola FhbB Protein Is a Dominant Early Antigen That Elicits FhbB Variant-Specific Antibodies That Block Factor H Binding and Cleavage by Dentilisin. Infect Immun 84:2051-2058
Caimano, Melissa J; Drecktrah, Dan; Kung, Faith et al. (2016) Interaction of the Lyme disease spirochete with its tick vector. Cell Microbiol 18:919-27

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