Kumato Mifune scite author profile

A set of 29 monoclonal antibodies (MAbs) specific for the rabies virus nucleoprotein (N protein) was prepared and used to analyze the topography of antigenic sites. At least four partially overlapping antigenic sites were delineated on the N protein of rabies virus by competitive binding assays. Indirect immunofluorescent antibody tests using MAbs with a series of rabies and rabiesrelated viruses showed that epitopes shared by various fixed and street strains of rabies virus were mainly localized at antigenic sites II and III, while epitopes representing the genus-specific antigen of Lyssavirus were widely presented at sites I, III and IV. All but one of seven MAbs specific for antigenic sites I, IV and bridge site (I and II) reacted with the antigen that had been denatured by sodium dodecyl sulfate or 2-mercaptoethanol, as well as with the denatured N protein in Western blotting assays. However, none of the MAbs against antigenic sites II and III reacted with the denatured antigen. These data indicate that antigenic sites I and IV, and sites II and III on the N protein of rabies virus are composed of linear and conformation-dependent epitopes, respectively.

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Local Secretory Immunoglobulin A and Postimmunization Gastritis Correlate with Protection againstHelicobacter pyloriInfection after Oral Vaccination of Mice

Goto¹,

Nishizono²,

Fujioka³

et al. 1999

Infect Immun

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C57BL/6 mice were orally immunized with five weekly doses of 2 mg, 200 μg, or 2 μg of Helicobacter pylori (Sydney strain) whole-cell sonicate combined with cholera toxin. One week after the last vaccination, mice were challenged with 5 × 107CFU of live H. pylori three times at 2-day intervals. At 6 or 18 weeks after the challenge, mice were sacrificed and bacterial cultures and histological studies of the stomach were performed. Vaccination with 2 mg/session or 200 μg/session inhibited H. pylori colonization by 90 and 100%, respectively. These mice were considered protected. Lower levels of H. pylori-specific immunoglobulin A (IgA) were detected in fecal and saliva samples before challenge. However, a significant increase in IgA secretion in mucosal tissue and a higher labeling index for IgA-positive lumina of pyloric glands were noted in these mice in response to challenge and in a vaccine dose-dependent manner. In protected mice, however, severe gastritis characterized by marked infiltration of inflammation mononuclear cells was noted at 6 weeks after challenge, compared with the gastritis seen in unprotected mice or nonvaccinated, ordinarily infected mice. Marked expression of gamma interferon mRNA was detected in the stomach of all protected mice, and 50% of these mice expressed interleukin 4 (IL-4) or IL-5 mRNA. Our findings suggest that local secretory IgA antibody and severe postimmunization gastritis correlate well with protection of mice against H. pylori infection.

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A simple and rapid immunochromatographic test kit for rabies diagnosis

Nishizono

Khawplod

Ahmed

et al. 2008

Microbiology and Immunology

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In rabies endemic countries, funds and infrastructure are often insufficient to employ the approved gold standard for the definitive diagnosis of rabies: the direct fluorescent test. In the present study, two types (type 1 and 2) of an ICT kit were evaluated for detection of rabies. These were developed using monoclonal antibodies which recognize epitope II and III of the nucleoprotein of rabies virus. Both kits specifically detected all rabies virus strains and there was no cross reactivity with Lyssaviruses (Lagos, Mokola and Duvenhage), Rhabdovirus (VSV and Oita 296/1972) and other common canine‐pathogenic viruses. In type 1, a single type of monoclonal antibody was used. It was capable of detecting recombinant nucleoprotein and showed sensitivity of 95.5% (42/44) and specificity of 88.9% (32/36) using brain samples from rabid dogs. In contrast, type 2 which was made of two different monoclonal antibodies had a lower sensitivity of 93.2% (41/44) and higher specificity of 100% (36/36). These ICT kits provide a simple and rapid method for rabies detection. They need neither cold chain for transportation nor complicated training for personnel. This diagnostic test is suitable for rabies screening, particularly in areas with a high prevalence of rabies and where the fluorescent antibody test is not available.

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Isolation and Assay of Rabies Serogroup Viruses in CER Cells

Smith¹,

Tignor²,

Mifune³

et al. 1977

Intervirology

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Infection of CER cell cultures with field strains of rabies virus, ranging from 0 to 5 mouse brain passages, was detected by immunofluorescence within 2–4 days after infection. A fluorescent focus assay for measuring infectivity of seven rabies serogroup viruses was rapid and reproducible. Rabies field strains and other rabies serogroup viruses also induced cytopathic effect, usually on initial passage. The hemadsorption-negative (HAD^–) plaque test in BSC-1 cells was successfully applied to laboratory-adapted rabies strains. HAD^– test attempts were unsuccessful with CER cells and with field isolates of rabies virus in both cell lines. CER cells are heteroploid and are antigenically related to BHK-21 cells by fluorescent antibody tests.

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Therapeutic Oral Vaccination Induces Mucosal Immune Response Sufficient to Eliminate Long‐Term Helicobacter pylori Infection

Ikewaki

Nishizono

Goto

et al. 2000

Microbiology and Immunology

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We examined the efficacy of therapeutic oral vaccination using Helicobacter pylori-whole cell sonicate and cholera toxin (CT) in mice persistently infected with H. pylori. Efficacy was determined by bacterial culture and microscopic examination of gastric tissues for the persistence of bacteria at 6 weeks after the last vaccination. Vaccination of H. pylori-whole cell sonicate combined with CT eradicated bacteria in 10/16 mice (62.5%). Interestingly, oral vaccination with CT alone also eliminated the bacteria in 8/17 mice (47.1%). However, a therapeutic intraperitoneally administered vaccine failed to eradicate H. pylori from the stomach (1/17 mice, 5.9%). Identification of the type of immunity involved in the eradication process showed that oral vaccination enhanced the antigen-specific IgA in the feces and saliva. The efficacy of eradication of H. pylori correlated well with increases in IgA secretion in mucosal tissue and a higher labeling index of IgA-positive lumina of pyloric glands. Moreover, the expression of IL-4 mRNA in the stomach of mice with eradicated bacteria was higher than in the uneradicated group. Our results suggest that the efficacy of vaccination depends on the mucosal IgA response in the gastrointestinal tract against H. pylori via Th2 cell activation and that therapeutic oral vaccination induces a mucosal immune response sufficient to eradicate long-term infection with H. pylori.

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Kumato Mifune

Linear and Conformation‐Dependent Antigenic Sites on the Nucleoprotein of Rabies Virus

Local Secretory Immunoglobulin A and Postimmunization Gastritis Correlate with Protection againstHelicobacter pyloriInfection after Oral Vaccination of Mice

A simple and rapid immunochromatographic test kit for rabies diagnosis

Isolation and Assay of Rabies Serogroup Viruses in CER Cells

Therapeutic Oral Vaccination Induces Mucosal Immune Response Sufficient to Eliminate Long‐Term Helicobacter pylori Infection

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