Alpha/beta interferon protects against lethal West Nile virus infection by restricting cellular tropism and enhancing neuronal survival
about
Limited trafficking of a neurotropic virus through inefficient retrograde axonal transport and the type I interferon responseRecent progress in West Nile virus diagnosis and vaccinationFeasibility of cross-protective vaccination against flaviviruses of the Japanese encephalitis serocomplexLimited Effects of Type I Interferons on Kyasanur Forest Disease Virus in Cell CultureThe Interferon-Stimulated Gene Ifi27l2a Restricts West Nile Virus Infection and Pathogenesis in a Cell-Type- and Region-Specific MannerWest Nile Virus Infection in the Central Nervous SystemNovel approaches and challenges to treatment of central nervous system viral infectionsWest Nile Virus: biology, transmission, and human infectionSystems analysis of West Nile virus infectionMechanism of West Nile virus neuroinvasion: a critical appraisalAge-Dependent Cell Trafficking Defects in Draining Lymph Nodes Impair Adaptive Immunity and Control of West Nile Virus InfectionIL-1β signaling promotes CNS-intrinsic immune control of West Nile virus infectionCD8+ T Cells Require Perforin To Clear West Nile Virus from Infected NeuronsGamma Interferon Plays a Crucial Early Antiviral Role in Protection against West Nile Virus InfectionPKR and RNase L Contribute to Protection against Lethal West Nile Virus Infection by Controlling Early Viral Spread in the Periphery and Replication in NeuronsResistance to Alpha/Beta Interferon Is a Determinant of West Nile Virus Replication Fitness and VirulencePathogenesis of West Nile Virus Infection: a Balance between Virulence, Innate and Adaptive Immunity, and Viral EvasionCD4+ T-Cell Responses Are Required for Clearance of West Nile Virus from the Central Nervous SystemCoordinated Regulation and Widespread Cellular Expression of Interferon-Stimulated Genes (ISG) ISG-49, ISG-54, and ISG-56 in the Central Nervous System after Infection with Distinct VirusesCaspase 3-Dependent Cell Death of Neurons Contributes to the Pathogenesis of West Nile Virus EncephalitisInhibition of apoptosis prevents West Nile virus induced cell deathCell-Specific IRF-3 Responses Protect against West Nile Virus Infection by Interferon-Dependent and -Independent MechanismsEarly Production of Type I Interferon during West Nile Virus Infection: Role for Lymphoid Tissues in IRF3-Independent Interferon ProductionAbrogation of macrophage migration inhibitory factor decreases West Nile virus lethality by limiting viral neuroinvasionAxonal transport mediates West Nile virus entry into the central nervous system and induces acute flaccid paralysisCD40-CD40 Ligand Interactions Promote Trafficking of CD8+ T Cells into the Brain and Protection against West Nile Virus EncephalitisInteraction between the Cellular Protein eEF1A and the 3'-Terminal Stem-Loop of West Nile Virus Genomic RNA Facilitates Viral Minus-Strand RNA SynthesisWest Nile Virus-Induced Interferon Production Is Mediated by the Double-Stranded RNA-Dependent Protein Kinase PKRProtective immune responses against West Nile virus are primed by distinct complement activation pathwaysIdentification of Novel Small-Molecule Inhibitors of West Nile Virus InfectionDifferential Effects of Mutations in NS4B on West Nile Virus Replication and Inhibition of Interferon SignalingDifferential Activation of Human Monocyte-Derived and Plasmacytoid Dendritic Cells by West Nile Virus Generated in Different Host CellsComplement Protein C1q Inhibits Antibody-Dependent Enhancement of Flavivirus Infection in an IgG Subclass-Specific MannerThe engagement of activating FcgammaRs inhibits primate lentivirus replication in human macrophagesThe relative contribution of antibody and CD8+ T cells to vaccine immunity against West Nile encephalitis virusInterferon Regulatory Factor IRF-7 Induces the Antiviral Alpha Interferon Response and Protects against Lethal West Nile Virus InfectionTumor Necrosis Factor Alpha Protects against Lethal West Nile Virus Infection by Promoting Trafficking of Mononuclear Leukocytes into the Central Nervous SystemMurine Coronavirus Mouse Hepatitis Virus Is Recognized by MDA5 and Induces Type I Interferon in Brain Macrophages/MicrogliaToll-Like Receptor 3 Has a Protective Role against West Nile Virus InfectionEarly B-Cell Activation after West Nile Virus Infection Requires Alpha/Beta Interferon but Not Antigen Receptor Signaling
P2860
Q21131564-D44CD9A0-5CF5-4A00-A7FA-8C8769E99922Q21284433-C4B3EBF9-F699-4611-B558-27943426CA0EQ24737461-16FC96F3-496D-4F4A-97D2-FD82C81DAEC4Q26699999-F00685C9-5F8B-466F-B320-5269516923D2Q26700088-6CD401D7-6FF5-45E2-B90E-9951D3D72411Q26766121-2D9208E3-D773-4F61-B56F-C5134D6983A1Q26862449-3B47F01A-61FA-43E5-944A-59CF7381820EQ26865618-8029652B-9F23-49B7-A0D7-275BF41F2384Q27012977-6A370A1F-62E6-4C1C-982F-554C758A598DQ27025556-50C6FF53-8DA2-4F1F-A39B-EF0B685714BFQ27318656-3545F102-B383-49AA-A0E4-9B8BA82E9439Q27340022-E7C82EB3-4454-464F-B911-DCDE36242DFAQ27472780-FD9537D3-FE3E-4B7F-A24D-D918450D14D2Q27473224-F7C23DFB-B6E0-4D6E-ADDD-68907BF9A351Q27473291-44C7B3A9-B9BE-48CC-BE7F-32337023D95EQ27477539-20C02ADF-64F9-47F0-A1D9-EF183849571AQ27477543-6EA9B436-B5B5-4528-9DB6-419FE9BCC057Q27477717-BE48A7C5-D317-4718-9D74-8F979A3FB31EQ27478040-B8B96B97-E616-40B2-998F-3F5FA6B2314BQ27478369-D821574A-4972-49A1-B703-7F22591FA964Q27478482-EE1D3B3D-0FB9-48E2-B70A-A019D72A725CQ27480936-3585FD7C-05B0-4DB4-A32E-EB958F6F5870Q27481032-126F73D1-A935-4D41-8106-9C0DF85C885CQ27481089-22ADE54F-2F06-4998-88A4-977BAE1B7916Q27481332-4AC07F7B-252E-46FB-9D9A-A5FF8995D401Q27481468-331B065A-9051-443E-A4DA-695F025A8B0FQ27481473-26AB3787-303E-450B-89F1-C5BA142960A9Q27481501-F4233574-D01E-49C0-BE35-FE66AFACABB6Q27482651-F25F2942-82D8-4B5B-BDE5-7CFFA5F62078Q27484983-58DA8A23-5BB5-463A-9A37-5FC8E13293FEQ27484997-B4A82CAF-A342-4A4E-A757-EB2D47760189Q27485005-8A1E0F7D-1173-4B20-B12B-EA528DAA93A5Q27485131-71E33296-1524-4656-B5AB-BB85F89CEF15Q27485769-12C49B24-6ACE-4DBD-822B-15E97FE842DFQ27486421-D54F284E-345F-4815-8745-958364AA65A0Q27486785-50924651-ADF3-4515-BA5A-FD2846B0A9D5Q27486917-DB7B0EC4-5BBF-4CEB-9FBF-1E290A5E5183Q27487033-91935136-CCD5-4EC7-A589-88ADC72BF09EQ27487124-BBA0E887-9D7B-4099-B13F-4D8C700D6616Q27487142-5B689D39-638E-4B24-BB6F-BEE5F5BB7E83
P2860
Alpha/beta interferon protects against lethal West Nile virus infection by restricting cellular tropism and enhancing neuronal survival
description
2005 nî lūn-bûn
@nan
2005 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Alpha/Beta Interferon Protects ...... nd Enhancing Neuronal Survival
@nl
Alpha/beta interferon protects ...... nd enhancing neuronal survival
@ast
Alpha/beta interferon protects ...... nd enhancing neuronal survival
@en
type
label
Alpha/Beta Interferon Protects ...... nd Enhancing Neuronal Survival
@nl
Alpha/beta interferon protects ...... nd enhancing neuronal survival
@ast
Alpha/beta interferon protects ...... nd enhancing neuronal survival
@en
prefLabel
Alpha/Beta Interferon Protects ...... nd Enhancing Neuronal Survival
@nl
Alpha/beta interferon protects ...... nd enhancing neuronal survival
@ast
Alpha/beta interferon protects ...... nd enhancing neuronal survival
@en
P2860
P3181
P1433
P1476
Alpha/beta interferon protects ...... nd enhancing neuronal survival
@en
P2093
Melanie A Samuel
P2860
P304
13350-13361
P3181
P356
10.1128/JVI.79.21.13350-13361.2005
P577
2005-11-01T00:00:00Z