Abstract
Chronic periodontitis is associated with Porphyromonas gingivalis infection. Although virulence factors of P. gingivalis are hypothesized to contribute to the pathogenesis of periodontitis, it is unclear whether the local CD4+ T-cell-mediated response they elicit prevents or contributes to periodontal bone destruction. We hypothesize that major histocompatibility complex class II I-Ab-binding peptides existing in Kgp and RgpA are presented to CD4+ T cells during P. gingivalis oral colonization. The protein sequences of gingipains RgpA and Kgp, and OMP40 and OMP41 of P. gingivalis were scanned using an I-Ab-binding matrix. From this analysis we identified 53 candidate peptides that had the potential to engage the peptide-binding groove of the I-Ab molecule of C57BL/6 mice. An ELISpot-based screen revealed those peptide-primed effector/memory CD4+ T cells that could be re-stimulated in vitro with P. gingivalis or the peptide itself to produce interleukin-17A or interferon-γ. Two immunodominant peptides, Kgp467–477 (pKgp) and RgpA1054–1064/Kgp1074–1084 (pR/Kgp) were identified and engineered to be displayed on I-Ab molecular tetramers. Peptide pR/Kgp is conserved across all sequenced P. gingivalis strains. C57BL/6 mice were orally inoculated with P. gingivalis strain 53977 and cervical lymph node cells were stained with phycoerythrin-conjugated pKgp::I-Ab and pR/Kgp::I-Ab tetramers. We found that only pR/Kgp::I-Ab bound with the desired specificity to gingipain-specific CD4+ T cells. The pR/Kgp::I-Ab tetramer complex will allow the identification of effector/memory CD4+ T cells specific for two virulence factors of P. gingivalis strains associated with periodontal disease.
Highlights
Chronic periodontitis is linked to the presence of a subgingival microbial biofilm that stimulates persistent inflammation of the marginal gingiva and is characterized by the destruction of the periodontium, resorption of alveolar bone and subsequent loss of teeth (Oliver & Brown, 1993; Oliver et al, 1998)
By restricting the major histocompatibility complex (MHC) class II molecule in this way we reduced the number of potential microbial CD4+ T-cell epitopes that can be displayed and that are able to be recognized by the repertoire of CD4+ T-cell receptors found in the C57BL/6 strain
To increase the likelihood of identifying immunodominant CD4+ T-cell epitopes derived from P. gingivalis, we chose to work with P. gingivalis proteins that are abundantly expressed and that are anchored within the membrane and/or are secreted
Summary
Chronic periodontitis is linked to the presence of a subgingival microbial biofilm that stimulates persistent inflammation of the marginal gingiva and is characterized by the destruction of the periodontium, resorption of alveolar bone and subsequent loss of teeth (Oliver & Brown, 1993; Oliver et al, 1998). This subgingival biofilm is a consortium of microbial species that includes the gram-negative, anaerobic bacterium Porphyromonas gingivalis (Socransky et al, 1998; Tran & Rudney, 1999; Lamont & Jenkinson, 2000). Severe periodontitis and periodontal disease progression have been associated with P. gingivalis. Therapeutic interventions that reduce the burden of P. gingivalis in patients suffering from periodontitis result in restoration of gingival health, but without a concomitant regeneration of the destroyed periodontium (Van Dyke et al, 1988)
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