The non-lethal virus (T691 strain) that induction of the SIS 3 site expression of FasL/Fas signal related genes in the lung is associated with the mortality of mammalians after the infection [4]. It is also reported that influenza A virus infection induces cell death of the infected cells by Fas-dependent apoptosis [5]. More importantly, it has been demonstrated that FasL gene functionally mutated congenic B6Smn.C3-Tnfsf6gld/J mice are more resistant to lethal influenza virus infection than C57Bl/6J mice [6]. Other studies demonstrated that activation of Fas signaling mediated by the administration of recombinant FasL protein or an purchase I-BRD9 anti-Fas agonistic antibody causes acute lung inflammation [7?]. These findings suggested that the activation of FasL/Fas signaling in the lung is associated with the severity of the illness in lethal influenza virus infection. Type-I interferon is known as an anti-viral cytokine, which induces the expression of several intracellular proteins including OAS, RNase L and Mx proteins resulting in the reduction of virusImportance of Type I IFN and FasL in Influenzaproduction [10]. Production of type-I IFN is regulated by receptor proteins directly recognizing virus RNA, such as Toll like receptors (TLRs) and retinoic acid-inducible gene-I (RIG-I) like proteins in virus-infected cells [11?3]. Recently, other functions of type-I IFN have been reported (reviewed in [14]). Previously, type-I IFN was shown to augment T-cell death induced in the activation states by up-regulating the expression of FasL and Fas [15]. More recently, it has been proposed 1527786 that type-I IFN should contribute to the depletion of CD4 T cells in an HIV infection [16]. These findings suggested that type-I IFN regulates T cell proliferation in the viral infection. In the present study, we demonstrate that in the lung of mice lethally infected with influenza A virus, FasL expression is induced more rapidly and abundantly than that in the lung of mice nonlethally infected with the virus. In addition, prevention for FasL/ Fas interaction by administration of antagonist or functional mutation on FasL gene protects mice against lethal viral infection and prevents reduction of CD3 (+) cell population, which mediated by lethal infection with the virus in the lung. It is also demonstrated that abnormal production of type-I IFN is essential for highly induction of FasL expression on cell 15857111 surface in the lung of mice lethally infected with influenza virus. These findings suggested that abnormal production of type-I IFN which causes highly induction of FasL expression on cell surface determines the severity of illness by influenza A virus infection.reverse, 59-CCCTGTTAAATGGGCCACACT-39, For mouse Fas forward, 59-CTGCGATGAAGAGCATGGTTT-39, reverse, 59-CCATAGGCGATTTCTGGGAC-39, For mouse GAPDH forward, 59-AAGGGCTCATGACCACAGTC-39, reverse, 59-GGATGCAGGGATGATGTTCT-39. Cycling conditions were used as: 95uC for 10 sec to activate DNA polymerase, followed by 40 cycles of 95uC for 5 seconds and 60uC for 30 seconds. Specificity of amplification products was confirmed by melting curve analysis. Each sample was assayed in triplicate in independent reactions.Plaque AssayMadin-Darby canine kidney cells in a semiconfluent monolayer on 12 well culture plates were infected for 1 h at room temperature with serial 10-fold dilution of supernatant from lung homogenate in serum-free MEM medium. Unbound viruses were removed by washing the cells with MEM. Cells were then overlaid with MEM conta.The non-lethal virus (T691 strain) that induction of the expression of FasL/Fas signal related genes in the lung is associated with the mortality of mammalians after the infection [4]. It is also reported that influenza A virus infection induces cell death of the infected cells by Fas-dependent apoptosis [5]. More importantly, it has been demonstrated that FasL gene functionally mutated congenic B6Smn.C3-Tnfsf6gld/J mice are more resistant to lethal influenza virus infection than C57Bl/6J mice [6]. Other studies demonstrated that activation of Fas signaling mediated by the administration of recombinant FasL protein or an anti-Fas agonistic antibody causes acute lung inflammation [7?]. These findings suggested that the activation of FasL/Fas signaling in the lung is associated with the severity of the illness in lethal influenza virus infection. Type-I interferon is known as an anti-viral cytokine, which induces the expression of several intracellular proteins including OAS, RNase L and Mx proteins resulting in the reduction of virusImportance of Type I IFN and FasL in Influenzaproduction [10]. Production of type-I IFN is regulated by receptor proteins directly recognizing virus RNA, such as Toll like receptors (TLRs) and retinoic acid-inducible gene-I (RIG-I) like proteins in virus-infected cells [11?3]. Recently, other functions of type-I IFN have been reported (reviewed in [14]). Previously, type-I IFN was shown to augment T-cell death induced in the activation states by up-regulating the expression of FasL and Fas [15]. More recently, it has been proposed 1527786 that type-I IFN should contribute to the depletion of CD4 T cells in an HIV infection [16]. These findings suggested that type-I IFN regulates T cell proliferation in the viral infection. In the present study, we demonstrate that in the lung of mice lethally infected with influenza A virus, FasL expression is induced more rapidly and abundantly than that in the lung of mice nonlethally infected with the virus. In addition, prevention for FasL/ Fas interaction by administration of antagonist or functional mutation on FasL gene protects mice against lethal viral infection and prevents reduction of CD3 (+) cell population, which mediated by lethal infection with the virus in the lung. It is also demonstrated that abnormal production of type-I IFN is essential for highly induction of FasL expression on cell 15857111 surface in the lung of mice lethally infected with influenza virus. These findings suggested that abnormal production of type-I IFN which causes highly induction of FasL expression on cell surface determines the severity of illness by influenza A virus infection.reverse, 59-CCCTGTTAAATGGGCCACACT-39, For mouse Fas forward, 59-CTGCGATGAAGAGCATGGTTT-39, reverse, 59-CCATAGGCGATTTCTGGGAC-39, For mouse GAPDH forward, 59-AAGGGCTCATGACCACAGTC-39, reverse, 59-GGATGCAGGGATGATGTTCT-39. Cycling conditions were used as: 95uC for 10 sec to activate DNA polymerase, followed by 40 cycles of 95uC for 5 seconds and 60uC for 30 seconds. Specificity of amplification products was confirmed by melting curve analysis. Each sample was assayed in triplicate in independent reactions.Plaque AssayMadin-Darby canine kidney cells in a semiconfluent monolayer on 12 well culture plates were infected for 1 h at room temperature with serial 10-fold dilution of supernatant from lung homogenate in serum-free MEM medium. Unbound viruses were removed by washing the cells with MEM. Cells were then overlaid with MEM conta.
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