Highly Conserved Surface Proteins of Oral Spirochetes as Adhesins and Potent Inducers of Proinflammatory and Osteoclastogenic Factors

Jun, Hye‐Kyoung; Kang, Youn K.; Lee, Haeri; Lee, Sung-Hoon; Choi, Bong‐Kyu

doi:10.1128/iai.01128-07

Cited by 28 publications

(40 citation statements)

References 57 publications

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“…A breach in the epithelial barrier would facilitate the invasion of plaque bacteria, including T. denticola, thus contributing to the pathogenesis of periodontitis. Studies using sonicates or purified components of T. denticola, such as lipooligosaccharide, peptidoglycan, or a surface protein, have reported the induction of an inflammatory response in murine macrophages, human macrophage-like cells, and fibroblasts (4,5,15,26,27). However, our results suggest that live bacteria may suppress or paralyze the inflammatory responses of these cells.…”

Section: Discussioncontrasting

confidence: 55%

Treponema denticolaSuppresses Expression of Human β-Defensin-3 in Gingival Epithelial Cells through Inhibition of the Toll-Like Receptor 2 Axis

Shin¹,

Kim²,

et al. 2010

Infect Immun

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We reported previously that Treponema denticola, one of the periodontal pathogens, suppresses the expression of human ␤-defensins (HBDs) in human gingival epithelial cells. To identify the mechanisms involved in this suppression, immortalized and normal human gingival epithelial cells were infected with live or heat-killed T. denticola for 24 h, and then the expression of HBDs was examined by real-time RT-PCR. Live T. denticola suppressed the expression of HBD-3 substantially and also suppressed the expression of HBD-1 and HBD-2. However, heat-killed bacteria did not produce a suppressive effect but instead slightly upregulated the levels of HBD-2 and HBD-3. In contrast to live T. denticola, which reduced the activation of mitogen-activated protein kinase (MAPK) and NF-B within an hour of infection, heat-killed bacteria did not show any inhibitory effect on the MAPK and NF-B signaling pathways. Knockdown of Toll-like receptor 2 (TLR2) via RNA interference abolished the suppressive effect of T. denticola on the expression of HBD-3. Heat-killed T. denticola but not live bacteria could activate TLR2 in CHO/CD14/TLR2 reporter cells, suggesting that T. denticola contains a heat-labile inhibitor(s) of TLR2 in addition to ligands recognized by TLR2. Indeed, live T. denticola was able to inhibit TLR2 activation by Pam 3 CSK. In conclusion, T. denticola suppressed the expression of HBD-3 by inhibiting the TLR2 axis in gingival epithelial cells. These results may provide new insight into the pathogenesis of periodontitis caused by T. denticola.Periodontitis is the inflammation of periodontal tissue that results from the interaction of plaque-associated bacteria with the host immune system. During the transition from health to periodontitis, the amount of total bacteria and the proportion of periodontopathic bacteria in the plaque microflora increase (22). Among the periodontitis-associated bacteria, the members of the so-called red complex triad (Porphyromonas gingivalis, Tannerella forsythia, and Treponema denticola) are the most well-studied periodontal pathogens, and these bacteria have been characterized as the primary causal agents of periodontal disease (10,22). The gingival epithelium provides the first line of defense against these plaque bacteria by forming a physical and chemical barrier. The barrier function of epithelia is attributed to the unique architectural integrity of the cells and to the production of antimicrobial peptides, such as human ␤-defensins (HBDs) and the cathelicidin LL-37 (9). Patients with Kostmann syndrome lack LL-37 in their saliva and develop severe periodontitis in young adulthood (21), suggesting the importance of antimicrobial peptides in the maintenance of periodontal health.The regulation of HBD expression has been studied extensively. HBD-1 is expressed constitutively, whereas the expression of HBD-2 and HBD-3 is under the control of the NF-B and/or mitogen-activated protein kinase (MAPK) signaling pathway (11). At the receptor level, induction of HBD-2 expression is mediated via p...

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Section: Discussioncontrasting

confidence: 55%

Treponema denticolaSuppresses Expression of Human β-Defensin-3 in Gingival Epithelial Cells through Inhibition of the Toll-Like Receptor 2 Axis

Shin¹,

Kim²,

et al. 2010

Infect Immun

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“…␤-Barrels have also been identified in the OMs of mitochondria and chloroplasts, eukaryotic organelles originating, respectively, from alphaproteobacterial and cyanobacterial endosymbiotic precursors (62,130). Perhaps most important has been the discovery of the conserved assembly machinery that chaperones newly exported OMP precursors into the OMs of virtually all diderms, including Borrelia burgdorferi (77) and oral treponemes (65), as well as mitochondria and chloroplasts (67,111). Indeed, the presence in T. pallidum of a protein, TP0326, that appears to possess the characteristic BamA bipartite structure (i.e., N-terminal POTRA domains and a C-terminal ␤-barrel [ Fig.…”

Section: Ipmw Logͩpi Pidealmentioning

confidence: 99%

Surface Immunolabeling and Consensus Computational Framework To Identify Candidate Rare Outer Membrane Proteins ofTreponema pallidum

Cox

Luthra²,

Dunham-Ems³

et al. 2010

Infect Immun

111

164

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Treponema pallidum reacts poorly with the antibodies present in rabbit and human syphilitic sera, a property attributed to the paucity of proteins in its outer membrane. To better understand the basis for the syphilis spirochete's "stealth pathogenicity," we used a dual-label, 3-step amplified assay in which treponemes encapsulated in gel microdroplets were probed with syphilitic sera in parallel with anti-FlaA antibodies. A small (approximately 5 to 10%) but reproducible fraction of intact treponemes bound IgG and/or IgM antibodies. Three lines of evidence supported the notion that the surface antigens were likely ␤-barrel-forming outer membrane proteins (OMPs): (i) surface labeling with anti-lipoidal (VDRL) antibodies was not observed, (ii) immunoblot analysis confirmed prior results showing that T. pallidum glycolipids are not immunoreactive, and (iii) labeling of intact organisms was not appreciably affected by proteinase K (PK) treatment. With this method, we also demonstrate that TprK (TP0897), an extensively studied candidate OMP, and TP0136, a lipoprotein recently reported to be surface exposed, are both periplasmic. Consistent with the immunolabeling studies, TprK was also found to lack amphiphilicity, a characteristic property of ␤-barrel-forming proteins. Using a consensus computational framework that combined subcellular localization and ␤-barrel structural prediction tools, we generated ranked groups of candidate rare OMPs, the predicted T. pallidum outer membrane proteome (OMPeome), which we postulate includes the surface-exposed molecules detected by our enhanced gel microdroplet assay. In addition to underscoring the syphilis spirochete's remarkably poor surface antigenicity, our findings help to explain the complex and shifting balance between pathogen and host defenses that characterizes syphilitic infection.

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“…Homologs of Tp92 have been identified in T. maltophilum, T. lecithinolyticum, T. socranskii, and T. denticola. Antisera raised to recombinant T. denticola Td92 have been used to show surface exposure of Td92 and inhibition of T. denticola binding to KB epithelial cells (Jun et al, 2008). All oral treponeme Tp92 homologs induced production of various cytokines, cyclooxygenase-2 (COX-2), and prostaglandin E 2 from THP-1 cells and periodontal ligament cells, indicating a pro-inflammatory response.…”

Section: Major Sheath Proteinmentioning

confidence: 99%

Virulence Factors of the Oral Spirochete Treponema denticola

et al. 2010

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There is compelling evidence that treponemes are involved in the etiology of several chronic diseases, including chronic periodontitis as well as other forms of periodontal disease. There are interesting parallels with other chronic diseases caused by treponemes that may indicate similar virulence characteristics. Chronic periodontitis is a polymicrobial disease, and recent animal studies indicate that co-infection of Treponema denticola with other periodontal pathogens can enhance alveolar bone resorption. The bacterium has a suite of molecular determinants that could enable it to cause tissue damage and subvert the host immune response. In addition to this, it has several non-classic virulence determinants that enable it to interact with other pathogenic bacteria and the host in ways that are likely to promote disease progression. Recent advances, especially in molecular-based methodologies, have greatly improved our knowledge of this bacterium and its role in disease.

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Highly Conserved Surface Proteins of Oral Spirochetes as Adhesins and Potent Inducers of Proinflammatory and Osteoclastogenic Factors

Cited by 28 publications

References 57 publications

Treponema denticolaSuppresses Expression of Human β-Defensin-3 in Gingival Epithelial Cells through Inhibition of the Toll-Like Receptor 2 Axis

Treponema denticolaSuppresses Expression of Human β-Defensin-3 in Gingival Epithelial Cells through Inhibition of the Toll-Like Receptor 2 Axis

Surface Immunolabeling and Consensus Computational Framework To Identify Candidate Rare Outer Membrane Proteins ofTreponema pallidum

Virulence Factors of the Oral Spirochete Treponema denticola

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