Matthias Regner scite author profile

Granzyme B (GzmB) is a protease with a well-characterized intracellular role in targeted destruction of compromised cells by cytotoxic lymphocytes. However, GzmB also cleaves extracellular matrix components, suggesting that it influences the interplay between cytotoxic lymphocytes and their environment. Here, we show that GzmB-null effector T cells and natural killer (NK) cells exhibited a cell-autonomous homing deficit in mouse models of inflammation and Ectromelia virus infection. Intravital imaging of effector T cells in inflamed cremaster muscle venules revealed that GzmB-null cells adhered normally to the vessel wall and could extend lamellipodia through it but did not cross it efficiently. In vitro migration assays showed that active GzmB was released from migrating cytotoxic lymphocytes and enabled chemokine-driven movement through basement membranes. Finally, proteomic analysis demonstrated that GzmB cleaved basement membrane constituents. Our results highlight an important role for GzmB in expediting cytotoxic lymphocyte diapedesis via basement membrane remodeling.

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Effect of inactivation method on the cross-protective immunity induced by whole 'killed' influenza A viruses and commercial vaccine preparations

Furuya

Regner

Lobigs

et al. 2010

Journal of General Virology

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Cytotoxic T Cells Are the Predominant Players Providing Cross-Protective Immunity Induced by γ-Irradiated Influenza A Viruses

Furuya

Chan

Regner

et al. 2010

J Virol

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We previously demonstrated that a single dose of nonadjuvanted intranasal ␥-irradiated influenza A virus can provide robust protection in mice against both homologous and heterosubtypic challenges, including challenge with an H5N1 avian virus strain. We investigated the mechanism behind the observed crossprotection to define which arms of the adaptive immune response are involved in mediating this protection. Studies with gene knockout mice showed the cross-protective immunity to be mediated mainly by T cells and to be dependent on the cytolytic effector molecule perforin. Adoptive transfer of memory T cells from immunized mice, but not of memory B cells, protected naïve recipients against lethal heterosubtypic influenza virus challenge. Furthermore, ␥-irradiated influenza viruses induced cross-reactive Tc-cell responses but not crossneutralizing or cross-protective antibodies. In addition, histological analysis showed reduced lung inflammation in vaccinated mice compared to that in unvaccinated controls following heterosubtypic challenge. This reduced inflammation was associated with enhanced early recruitment of T cells, both CD4؉ and CD8 ؉ , and with early influenza virus-specific cytotoxic T-cell responses. Therefore, cross-protective immunity induced by vaccination with ␥-irradiated influenza A virus is mediated mainly by Tc-cell responses.

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Intranasal Flu Vaccine Protective against Seasonal and H5N1 Avian Influenza Infections

et al. 2009

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BackgroundInfluenza A (flu) virus causes significant morbidity and mortality worldwide, and current vaccines require annual updating to protect against the rapidly arising antigenic variations due to antigenic shift and drift. In fact, current subunit or split flu vaccines rely exclusively on antibody responses for protection and do not induce cytotoxic T (Tc) cell responses, which are broadly cross-reactive between virus strains. We have previously reported that γ-ray inactivated flu virus can induce cross-reactive Tc cell responses.Methodology/Principal FindingHere, we report that intranasal administration of purified γ-ray inactivated human influenza A virus preparations (γ-Flu) effectively induces heterotypic and cross-protective immunity. A single intranasal administration of γ-A/PR8[H1N1] protects mice against lethal H5N1 and other heterotypic infections.Conclusions/SignificanceIntranasal γ-Flu represents a unique approach for a cross-protective vaccine against both seasonal as well as possible future pandemic influenza A virus infections.

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Matthias Regner

Pivotal Role of Antibody and Subsidiary Contribution of CD8⁺T Cells to Recovery from Infection in a Murine Model of Japanese Encephalitis

Granzyme B Promotes Cytotoxic Lymphocyte Transmigration via Basement Membrane Remodeling

Effect of inactivation method on the cross-protective immunity induced by whole 'killed' influenza A viruses and commercial vaccine preparations

Cytotoxic T Cells Are the Predominant Players Providing Cross-Protective Immunity Induced by γ-Irradiated Influenza A Viruses

Intranasal Flu Vaccine Protective against Seasonal and H5N1 Avian Influenza Infections

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Matthias Regner

Pivotal Role of Antibody and Subsidiary Contribution of CD8+T Cells to Recovery from Infection in a Murine Model of Japanese Encephalitis

Granzyme B Promotes Cytotoxic Lymphocyte Transmigration via Basement Membrane Remodeling

Effect of inactivation method on the cross-protective immunity induced by whole 'killed' influenza A viruses and commercial vaccine preparations

Cytotoxic T Cells Are the Predominant Players Providing Cross-Protective Immunity Induced by γ-Irradiated Influenza A Viruses

Intranasal Flu Vaccine Protective against Seasonal and H5N1 Avian Influenza Infections

Contact Info

Product

Resources

About

Pivotal Role of Antibody and Subsidiary Contribution of CD8⁺T Cells to Recovery from Infection in a Murine Model of Japanese Encephalitis