H Isobe scite author profile

Two different subsets of T cells, Th1 and Th2 cells, have been demonstrated to secrete different profiles of cytokines and to influence various infections in different ways. Whereas cytokines secreted by Th1 cells, particularly gamma interferon, promote the generation of cell-mediated immunity, Th2 cells and their cytokines (interleukin-4 [IL-4], IL-5, IL-10, and IL-13) have been shown to function in recovery from parasitic infections and in antibody responses. In this study, we analyzed the effects of the dominant Th2 cytokine, IL-4, on immunity to virus infection. We assessed the effects of IL-4 on both secondary immune responses by an adoptive transfer assay and primary immune responses by in vivo treatment of influenza virus-infected mice with IL-4. The results demonstrated that IL-4 can function to inhibit antiviral immunity at both stages. We found that IL-4 treatment of sensitized cells during secondary stimulation in vitro had little effect on their ability to lyse virus-infected target cells in a 51 Cr release assay. Nevertheless, the clearance of influenza A/PR/8/34 (H1N1) virus from the lungs of infected BALB/c mice was significantly delayed after the transfer of virus-specific T cells secondarily stimulated in the presence of IL-4 in comparison to virus clearance in recipients of cells stimulated in the absence of IL-4. In contrast to the adoptive transfer results, the treatment of PR8 virus-infected mice with IL-4 during primary infection greatly suppressed the generation of cytotoxic T-cell precursors, as assessed by secondary stimulation in vitro.In addition, culture supernatants of secondarily stimulated spleen cells from IL-4-treated mice contained significantly less gamma interferon and more IL-4 than did spleen cells from controls. More importantly, the treatment of mice with IL-4 resulted in an extremely significant delay in virus clearance. Thus, IL-4 can inhibit both primary and secondary antiviral immune responses.

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Chimeric influenza virus induces neutralizing antibodies and cytotoxic T cells against human immunodeficiency virus type 1

Polonis

Isobe

et al. 1993

J Virol

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Expression vectors based on DNA or plus-stranded RNA viruses are being developed as vaccine carriers directed against various pathogens. Less is known about the use of negative-stranded RNA viruses, whose genomes have been refractory to direct genetic manipulation. Using a recently described reverse genetics method, we investigated whether influenza virus is able to present antigenic structures from other infectious agents. We engineered a chimeric influenza virus which expresses a 12-amino-acid peptide derived from the V3 loop of gpl20 of human immunodeficiency virus type 1 (HIV-1) MN. This peptide was inserted into the loop of antigenic site B of the influenza A/WSN/33 virus hemagglutinin (HA). The resulting chimeric virus was recognized by specific anti-V3 peptide antibodies and a human anti-gpl20 monoclonal antibody in both hemagglutination inhibition and neutralization assays. Mice immunized with the chimeric influenza virus produced anti-HIV antibodies which were able to bind to synthetic V3 peptide, to precipitate gpl20, and to neutralize MN virus in human T-cell culture system. In addition, the chimeric virus was also capable of inducing cytotoxic T cells which specifically recognize the HIV sequence. These results suggest that influenza virus can be used as an expression vector for inducing both Band T-cell-mediated immunity against other infectious agents.

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Cellular mechanisms involved in protection and recovery from influenza virus infection in immunodeficient mice

Bot

Reichlin

Isobe

et al. 1996

J Virol

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We investigated the role of different lymphocyte subpopulations in the host defense reaction against influenza virus infection, taking advantage of various immunodeficient mouse strains. Whereas, following immunization, wild-type animals showed complete protection against challenge with a lethal dose of A/PR8/34 (PR8) virus, mice that lack both B and T cells but not NK cells (namely, scid and RAG2 ؊/؊ mice) did not display any protective effect in similar conditions. By contrast, J H D ؊/؊ mice devoid of B cells and immunized with virus showed a protective response after challenge with a lethal dose. The immunized J H D ؊/؊ mice that survived completely recovered from the influenza virus infection. Immunized J H D ؊/؉ mice exhibited a more complete protection, suggesting the role of specific antibodies in resistance to infection. To assess the role of natural immunity in the host defense against influenza virus, we carried out experiments with scid mice challenged with lower but still lethal doses of PR8 virus. While an increased NK activity and an increased number of NK1.1 ؉ cells in lungs of scid mice infected with PR8 virus were noted, in vivo depletion of the NK1.1 ؉ cells did not affect the overall survival of the mice. Our results show that specific T cells mediate protection and recovery of J H D ؊/؊ mice immunized with live virus and challenged with lethal doses of influenza virus.

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Intact Antiinfluenza Virus Immune Response in Targeted κ-Deficient Mice

Isobe

Alt²,

Bona³

et al. 1994

Viral Immunology

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Immunoglobulins are encoded by genes located in three different loci, the heavy chain (IgH), kappa light chain (Ig kappa), and lambda light chain (Ig lambda) loci. In mice, the kappa/lambda ratio of B cells is 95:5. In a previous study, we reported that kappa gene deletion causes the alternative usage of lambda 1 (93%) and lambda 2 (7%) light chains, and that the kappa anti-TNP repertoire is compensated for by the lambda repertoire even though the latter is clonally restricted in K-/- mice. To investigate the contribution of lambda antibodies to protection against virus, we compared K-/- mice with 129/Sv wild-type mice with respect to immune responses to influenza virus. PR8 virus immunized K-/- and 129/Sv mice showed no difference in the titer of anti-HA antibodies. Furthermore, the same immunized mice had sufficiently high neutralizing antibody titer to prevent infection when challenged with 7.5 x 10(4) TCID50 of PR8 virus. In addition, immunized K-/- mice were resistant to infection with 7.5 x 10(4) TCID50 and 7.5 x 10(5) TCID50 (10 and 100 LD50, respectively) of PR8 virus. Finally, K-/- mice are also capable of inducing cytotoxic T cells. These results suggest that the lambda repertoire can compensate for the kappa repertoire by generating a fully protective neutralizing antibody response.

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PP249-MON: Food Selectivity and Nutritional Deficiencies in Children with Autism Spectrum Disorders in Japan

Tanoue¹,

Isobe²,

Takamasu³

et al. 2014

Clinical Nutrition

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H Isobe

Interleukin-4 causes delayed virus clearance in influenza virus-infected mice

Chimeric influenza virus induces neutralizing antibodies and cytotoxic T cells against human immunodeficiency virus type 1

Cellular mechanisms involved in protection and recovery from influenza virus infection in immunodeficient mice

Intact Antiinfluenza Virus Immune Response in Targeted κ-Deficient Mice

PP249-MON: Food Selectivity and Nutritional Deficiencies in Children with Autism Spectrum Disorders in Japan

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