Your search keyword '"Ansai, T."' showing total 5 results

1. Involvement of ganglioside GM3 in G(2)/M cell cycle arrest of human monocytic cells induced by Actinobacillus actinomycetemcomitans cytolethal distending toxin.

Author

Mise K, Akifusa S, Watarai S, Ansai T, Nishihara T, and Takehara T

Subjects

Aggregatibacter actinomycetemcomitans metabolism, Cell Division physiology, DNA metabolism, G2 Phase physiology, Humans, Liposomes metabolism, Monocytes cytology, Sphingolipids metabolism, U937 Cells, Actinobacillus Infections metabolism, Bacterial Toxins metabolism, Cell Cycle physiology, G(M3) Ganglioside metabolism, Monocytes metabolism

Abstract

Actinobacillus actinomycetemcomitans produces a toxin called cytolethal distending toxin (CDT), which causes host cell DNA damage leading to the induction of DNA damage checkpoint pathways. CDT consists of three subunits, CdtA, CdtB, and CdtC. CdtB is the active subunit of CDT and exerts its effect as a nuclease that damages nuclear DNA, triggering cell cycle arrest. In the present study, we confirmed that the only combination of toxin proteins causing cell cycle arrest was that of all three recombinant CDT (rCDT) protein subunits. Furthermore, in order for rCDT to demonstrate toxicity, it was necessary for CdtA and CdtC to access the cell before CdtB. The coexistence of CdtA and CdtC was necessary for these subunits to bind to the cell. Cells treated with the glucosylceramide synthesis inhibitor 1-phenyl-2-palmitoylamino-3-morpholino-1-propanol showed resistance to the cytotoxicity induced by rCDT. Furthermore, LY-B cells, which are deficient in the biosynthesis of sphingolipid, also showed resistance to the cytotoxicity induced by rCDT. To evaluate the binding of each subunit for glucosylceramides, we performed thin-layer chromatography immunostaining. The results indicated that each subunit reacted with the glycosphingolipids GM1, GM2, GM3, Gb3, and Gb4. The rCDT mixture incubated with liposomes containing GM3 displayed partially reduced toxicity. These results indicate that GM3 can act as a CDT receptor.

Published

2005

2. Use of the genomic subtractive hybridization technique to develop a real-time PCR assay for quantitative detection of Prevotella spp. in oral biofilm samples.

Author

Nagashima S, Yoshida A, Suzuki N, Ansai T, and Takehara T

Subjects

Bacteroidaceae Infections microbiology, DNA Probes, DNA, Bacterial analysis, Dental Plaque microbiology, Humans, Prevotella classification, Prevotella genetics, Species Specificity, Taq Polymerase, Biofilms growth & development, Mouth microbiology, Nucleic Acid Hybridization methods, Polymerase Chain Reaction methods, Prevotella isolation & purification

Abstract

Genomic subtractive hybridization was used to design Prevotella nigrescens-specific primers and TaqMan probes. Based on this technique, a TaqMan real-time PCR assay was developed for quantifying four oral black-pigmented Prevotella species. The combination of real-time PCR and genomic subtractive hybridization is useful for preparing species-specific primer-probe sets for closely related species.

Published

2005

3. Loop-mediated isothermal amplification method for rapid detection of the periodontopathic bacteria Porphyromonas gingivalis, Tannerella forsythia, and Treponema denticola.

Author

Yoshida A, Nagashima S, Ansai T, Tachibana M, Kato H, Watari H, Notomi T, and Takehara T

Subjects

Bacteroidaceae genetics, Base Sequence, DNA Primers, DNA, Bacterial genetics, DNA, Bacterial isolation & purification, Gene Amplification, Humans, Porphyromonas gingivalis genetics, Treponema denticola genetics, Bacteroidaceae isolation & purification, Periodontitis microbiology, Porphyromonas gingivalis isolation & purification, Treponema denticola isolation & purification

Abstract

Loop-mediated isothermal amplification (LAMP), a novel nucleic acid amplification method, was developed for the rapid detection of the major periodontal pathogens Porphyromonas gingivalis, Tannerella forsythia, and Treponema denticola. The LAMP method amplifies DNA with high specificity, efficiency, and rapidity under isothermal conditions using a set of four specially designed primers and a DNA polymerase with strand displacement activity. In this study, we initially designed the primers for LAMP assays to detect these bacteria and evaluated the specificity and sensitivity of these assays. The specificities of the primers for these bacteria were examined using various oral bacteria and various reaction times. The lower detection limits of the 60-min LAMP reaction without loop primers were 1 microg/tube for P. gingivalis, 10 fg/tube for T. forsythia, and 1 ng/tube for T. denticola. Addition of the loop primers for each bacterium improved the detection specificities and sensitivities by several magnitudes. Furthermore, LAMP assays were applied to the rapid detection of these periodontal pathogens in clinical specimens, and the results were compared with those of conventional PCR detection. The results of the LAMP assays corresponded to those of conventional PCR assays. These results indicate that the LAMP assay is an extremely rapid, highly sensitive, specific method. This method is very useful for the rapid detection of periodontopathic bacteria and the diagnosis of periodontal disease.

Published

2005

4. LuxS-based signaling affects Streptococcus mutans biofilm formation.

Author

Yoshida A, Ansai T, Takehara T, and Kuramitsu HK

Subjects

Carbon-Sulfur Lyases, Genetic Complementation Test, Glucosyltransferases genetics, Homoserine biosynthesis, Humans, Lactones, Microscopy, Electron, Scanning, Mouth microbiology, Bacterial Proteins physiology, Biofilms growth & development, Homoserine analogs & derivatives, Streptococcus mutans physiology

Abstract

Streptococcus mutans is implicated as a major etiological agent in human dental caries, and one of the important virulence properties of this organism is its ability to form biofilms (dental plaque) on tooth surfaces. We examined the role of autoinducer-2 (AI-2) on S. mutans biofilm formation by constructing a GS-5 luxS-null mutant. Biofilm formation by the luxS mutant in 0.5% sucrose defined medium was found to be markedly attenuated compared to the wild type. Scanning electron microscopy also revealed that biofilms of the luxS mutant formed larger clumps in sucrose medium compared to the parental strain. Therefore, the expression of glucosyltransferase genes was examined and the gtfB and gtfC genes, but not the gtfD gene, in the luxS mutant were upregulated in the mid-log growth phase. Furthermore, we developed a novel two-compartment system to monitor AI-2 production by oral streptococci and periodontopathic bacteria. The biofilm defect of the luxS mutant was complemented by strains of S. gordonii, S. sobrinus, and S. anginosus; however, it was not complemented by S. oralis, S. salivarius, or S. sanguinis. Biofilm formation by the luxS mutant was also complemented by Porphyromonas gingivalis 381 and Actinobacillus actinomycetemcomitans Y4 but not by a P. gingivalis luxS mutant. These results suggest that the regulation of the glucosyltransferase genes required for sucrose-dependent biofilm formation is regulated by AI-2. Furthermore, these results provide further confirmation of previous proposals that quorum sensing via AI-2 may play a significant role in oral biofilm formation.

Published

2005

5. Isolation, cloning, and expression of an acid phosphatase containing phosphotyrosyl phosphatase activity from Prevotella intermedia.

Author

Chen X, Ansai T, Awano S, Iida T, Barik S, and Takehara T

Subjects

Acid Phosphatase chemistry, Acid Phosphatase metabolism, Amino Acid Sequence, Base Sequence, Cloning, Molecular, Molecular Sequence Data, Phosphorylation, Phylogeny, Prevotella intermedia genetics, Protein Tyrosine Phosphatases chemistry, Recombinant Proteins metabolism, Sequence Analysis, DNA, Acid Phosphatase genetics, Acid Phosphatase isolation & purification, Prevotella intermedia enzymology, Protein Tyrosine Phosphatases genetics, Protein Tyrosine Phosphatases metabolism

Abstract

A novel acid phosphatase containing phosphotyrosyl phosphatase (PTPase) activity, designated PiACP, from Prevotella intermedia ATCC 25611, an anaerobe implicated in progressive periodontal disease, has been purified and characterized. PiACP, a monomer with an apparent molecular mass of 30 kDa, did not require divalent metal cations for activity and was sensitive to orthovanadate but highly resistant to okadaic acid. The enzyme exhibited substantial activity against tyrosine phosphate-containing peptides derived from the epidermal growth factor receptor. On the basis of N-terminal and internal amino acid sequences of purified PiACP, the gene coding for PiACP was isolated and sequenced. The PiACP gene consisted of 792 bp and coded for a basic protein with an M(r) of 29,164. The deduced amino acid sequence exhibited striking similarity (25 to 64%) to those of members of class A bacterial acid phosphatases, including PhoC of Morganella morganii, and involved a conserved phosphatase sequence motif that is shared among several lipid phosphatases and the mammalian glucose-6-phosphatases. The highly conservative motif HCXAGXXR in the active domain of PTPase was not found in PiACP. Mutagenesis of recombinant PiACP showed that His-170 and His-209 were essential for activity. Thus, the class A bacterial acid phosphatases including PiACP may function as atypical PTPases, the biological functions of which remain to be determined.

Published

1999