Studies performed in our laboratory implicate the Porphyromonas gingivalis HtpG stress protein, the prokaryotic homologue of Hsp90, in the etiology of periodontal disease. We have reported that elevated levels of anti-Hsp90 antibodies, concomitant with P. gingivalis colonization, are associated with periodontal health. Transcription of HtpG message was also found to be upregulated 7-10-fold in P. gingivalis obtained from diseased subgingival plaque. There is a precedence for Hsp90 homologues contributing to pathogenicity of other microorganisms. Immunity to a single Hsp90 epitope of Candida albicans has been demonstrated to confer protection against systemic candidiasis. Studies performed by our laboratory have revealed that P. gingivalis HtpG has a significant degree of homology with human Hsp90, but remains clearly distinct from other HtpG proteins due to its unique C-terminal region. We have found that HtpG is localized to P. gingivalis membranes and extracellular vesicles, and that it cross-reacts with other prokaryotic and eukaryotic Hsp90 homologues. Our findings suggest that HtpG is readily accessible to participate in host cellular invasion processes, as well as to interfere with normal host cell functions one P. gingivalis enters the host cytoplasmic compartment. Transfection of KB cells with the P. gingivalis htpG gene stimulates IL-8 production by these cells. This application proposes to extend our investigations into the role that molecular mimicry by HtpG plays in the pathogenicity of P. gingivalis. Previous studies of other pathogenic microorganisms which appear to use the Hsp90 homologue as a virulence factor have been purely descriptive. Our application is unique in that while will propose to evaluate the role of HtpG in adherence and invasion mechanisms, we also propose to elucidate novel pathogenic mechanism(s) by which microorganisms such as P. gingivalis utilize molecular mimicry to disrupt normal eukaryotic cell function(s). Since the most clearly defined eukaryotic Hsp90-mediated mechanisms involved signal transduction pathways, these will be the primary foci of our investigations. The hypothesis to be tested in this study is: 1) HtpG plays a role in adherence and invasion of host cells; and 2) once internalized, signal transduction mechanisms mediated by Hsp90/TRAP1 within eukaryotic cells are disrupted by the HtpG of P. gingivalis through molecular mimicry. This leads to disruption of normal inflammatory cytokine responses to microbial invasion by P. gingivalis and other oral microorganisms.
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