Hiroshi Hongyo scite author profile

Hiroshi Hongyo

5Publications

34Citation Statements Received

55Citation Statements Given

How they've been cited

124

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Affiliations

Okayama University, British Society of Periodontology

Publications

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Identification and characterization of B‐cell epitopes of a 53‐kDa outer membrane protein from Porphyromonas gingivalis

Oyaizu¹,

Ohyama²,

Nishimura³

et al. 2001

Oral Microbiology and Immunology

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We have previously reported that Porphyromonas gingivalis FDC 381 possesses a 53-kDa protein antigen (Ag53) on its outer membrane that evokes a strong humoral immune response in many patients with periodontal disease and that the humoral immune responses to Ag53 differ greatly among patients. To understand how the individual humoral immune system against Ag53 was determined, the regions of Ag53 recognized by specific antibody (B-cell epitopes) and dominant subclasses of serum immunoglobulin G (IgG) against major B-cell epitopes were examined by enzyme-linked immunosorbent assay. This study used sera from six patients with periodontitis, which all reacted strongly with sonic extracts of P. gingivalis 381 and with purified Ag53, and sera from six periodontally healthy children, which did not react with either sonic extracts of P. gingivalis 381 or Ag53. The epitopes were identified using synthetic 5-residue overlapping decapeptides covering the entire Ag53. Thirteen of 89 synthetic decapeptides showed a strong reaction with sera from the periodontal patients, but no reaction with those from the healthy children. Four peptides of 13 exerted different immune responses among patients. Furthermore, restriction analyses of the highly antigenic regions revealed that three sequences, RAAIRAS, YYLQ and MSPARR, were identified as major B-cell epitopes. Additionally, these epitopes were recognized mainly by the IgG2 isotype. These data suggest that the difference of B-cell epitopes might influence individual differences in antibody titer against Ag53 and also that the epitopes recognized commonly by multiple antibodies are quite valuable for peptide vaccine development against P. gingivalis infection.

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Identification by Subtractive Hybridization of a Novel Insertion Sequence Specific for Virulent Strains of Porphyromonas gingivalis

et al. 2000

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Identification by Subtractive Hybridization of a Novel Insertion Sequence Specific for Virulent Strains of Porphyromonas gingivalis

et al. 1999

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Subtractive hybridization was employed to isolate specific genes from virulent Porphyromonas gingivalis strains that are possibly related to abscess formation. The genomic DNA from the virulent strain P. gingivalis W83 was subtracted with DNA from the avirulent strain ATCC 33277. Three clones unique to strain W83 were isolated and sequenced. The cloned DNA fragments were 885, 369, and 132 bp and had slight homology with only Bacillus stearothermophilus IS5377, which is a putative transposase. The regions flanking the cloned DNA fragments were isolated and sequenced, and the gene structure around the clones was revealed. These three clones were located side-by-side in a gene reported as an outer membrane protein. The three clones interrupt the open reading frame of the outer membrane protein gene. This inserted DNA, consisting of three isolated clones, was designated IS1598, which was 1,396 bp (i.e., a 1,158-bp open reading frame) in length and was flanked by 16-bp terminal inverted repeats and a 9-bp duplicated target sequence. IS1598 was detected inP. gingivalis W83, W50, and FDC 381 by Southern hybridization. All three P. gingivalis strains have been shown to possess abscess-forming ability in animal models. However, IS1598 was not detected in avirulent strains of P. gingivalis, including ATCC 33277. The IS1598 may interrupt the synthesis of the outer membrane protein, resulting in changes in the structure of the bacterial outer membrane. The IS1598 isolated in this study is a novel insertion element which might be a specific marker for virulent P. gingivalisstrains.

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Heat shock protein 60 (GroEL) fromPorphyromonas gingivalis: Molecular cloning and sequence analysis of its gene and purification of the recombinant protein

Maeda

Miyamoto

Hongyo

et al. 1994

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Heat shock protein 60 (GroEL) fromPorphyromonas gingivalis: Molecular cloning and sequence analysis of its gene and purification of the recombinant protein

Maéda

Miyamoto

Hongyo

et al. 1994

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Porphyromonas gingivalis is associated with human periodontal disease. We cloned and sequenced the gene for heat shock protein 60 (GroEL, HSP60) from P. gingivalis FDC381. The identified clone carried a 2.6 kb DNA fragment which contained two open reading frames (ORFs) encoding a 9.6- and a 58.4-kDa protein. The translated amino acid sequence of these ORFs showed a high degree of homology with known sequences for GroES and GroEL from several bacterial species and humans. Escherichia coli carrying this clone expressed a 65-kDa protein which was recognized by anti-Mycobacterium leprae HSP60 monoclonal antibody. We purified the 65-kDa protein by DEAE-sepharose chromatography and hydroxyapatite chromatography. This protein was immunogenic and was recognized by sera from a number of patients with periodontal disease. This immunological reactivity and the existence of molecular mimicry between the P. gingivalis GroEL and other HSP homologs may indicate an important role for this molecule in periodontal lesion.

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Hiroshi Hongyo

Identification and characterization of B‐cell epitopes of a 53‐kDa outer membrane protein from Porphyromonas gingivalis

Identification by Subtractive Hybridization of a Novel Insertion Sequence Specific for Virulent Strains of Porphyromonas gingivalis

Identification by Subtractive Hybridization of a Novel Insertion Sequence Specific for Virulent Strains of Porphyromonas gingivalis

Heat shock protein 60 (GroEL) fromPorphyromonas gingivalis: Molecular cloning and sequence analysis of its gene and purification of the recombinant protein

Heat shock protein 60 (GroEL) fromPorphyromonas gingivalis: Molecular cloning and sequence analysis of its gene and purification of the recombinant protein

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