CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
about
Guarding the perimeter: protection of the mucosa by tissue-resident memory T cellsThe role of dendritic cells in immunity against primary herpes simplex virus infectionsHerpes simplex virus type 1 latency and reactivation: an updateA comparison of herpes simplex virus type 1 and varicella-zoster virus latency and reactivationA cultured affair: HSV latency and reactivation in neuronsKeeping it in check: chronic viral infection and antiviral immunity in the brainHerpesviruses: latency and reactivation - viral strategies and host responseImmune Escape via a Transient Gene Expression Program Enables Productive Replication of a Latent Pathogen.A single intramuscular vaccination of mice with the HSV-1 VC2 virus with mutations in the glycoprotein K and the membrane protein UL20 confers full protection against lethal intravaginal challenge with virulent HSV-1 and HSV-2 strains.Three-dimensional normal human neural progenitor tissue-like assemblies: a model of persistent varicella-zoster virus infectionEstablishment of HSV1 latency in immunodeficient mice facilitates efficient in vivo reactivation.Bst2/Tetherin Is Induced in Neurons by Type I Interferon and Viral Infection but Is Dispensable for Protection against Neurotropic Viral Challenge.Herpes Simplex Vaccines: Prospects of Live-attenuated HSV Vaccines to Combat Genital and Ocular infections.Virus infections in the nervous systemAge and immune status of rhesus macaques impact simian varicella virus gene expression in sensory gangliaRole of polycomb proteins in regulating HSV-1 latency.Generating protective immunity against genital herpesInhibitors of the Histone Methyltransferases EZH2/1 Induce a Potent Antiviral State and Suppress Infection by Diverse Viral Pathogens.Robust gene expression changes in the ganglia following subclinical reactivation in rhesus macaques infected with simian varicella virus.Transcriptional Elongation of HSV Immediate Early Genes by the Super Elongation Complex Drives Lytic Infection and Reactivation from Latency.Lateral thalamic control of nociceptive response after whisker pad injection of varicella zoster virus.Colony Stimulating Factor-1 Receptor Expressing Cells Infiltrating the Cornea Control Corneal Nerve Degeneration in Response to HSV-1 Infection.Glutamine supplementation suppresses herpes simplex virus reactivation.Bolstering the Number and Function of HSV-1-Specific CD8+ Effector Memory T Cells and Tissue-Resident Memory T Cells in Latently Infected Trigeminal Ganglia Reduces Recurrent Ocular Herpes Infection and Disease.CXCL10/CXCR3-Dependent Mobilization of Herpes Simplex Virus-Specific CD8+ TEM and CD8+ TRM Cells within Infected Tissues Allows Efficient Protection against Recurrent Herpesvirus Infection and Disease.Influence of an immunodominant herpes simplex virus type 1 CD8+ T cell epitope on the target hierarchy and function of subdominant CD8+ T cells.Molecular Mechanisms for Herpes Simplex Virus Type 1 Pathogenesis in Alzheimer's Disease.Contributions of neurotropic human herpesviruses herpes simplex virus 1 and human herpesvirus 6 to neurodegenerative disease pathology.Molecular Mechanisms for Herpes Simplex Virus Type 1 Pathogenesis in Alzheimer’s Disease.Human Asymptomatic Epitope Peptide/CXCL10-Based Prime/Pull Vaccine Induces Herpes Simplex Virus-Specific Gamma Interferon-Positive CD107 CD8 T Cells That Infiltrate the Corneas and Trigeminal Ganglia of Humanized HLA Transgenic Rabbits and Protect ag
P2860
Q26822643-E8E044F1-C2AF-46AB-82AD-1345C8688A0FQ26827217-29AB3796-EB12-4647-BDB8-DC195B4E7693Q26866072-8294357E-7D12-435A-B648-F5EF433E2CC8Q26996418-CD055CAB-9434-4892-B9D1-4DBC3DD2295CQ27015883-82326F57-D319-44C9-956B-40BF52C05104Q27787368-6BE7D618-46A4-4F6D-ABEE-54AFBA04F5CAQ28662112-0FA9AA04-8401-4A7B-95F3-11995ECD52D4Q30840932-FE52E42A-1B63-42EB-B933-92B2CC02A9A3Q34414463-8FB78EF9-62BE-4422-A882-697AD81F83EFQ34916815-0E003D01-15C9-477D-BE12-3F9012626AE0Q35168425-9C838679-9C9A-46EE-8D15-A7F5F131DE8DQ36208162-AC95BB30-B7FD-4705-A5D0-D180E2A5C23DQ36824210-54435FFF-4197-4F20-918A-12137023854EQ36825383-3D23D23F-62F9-4D55-8FC5-941C1D8EFE6AQ37036811-091D9DCA-9D38-41B3-A180-88644AE7A387Q37083714-5510231E-F0AD-44E5-BCF1-5AC85C9EB5D4Q37283993-F20905AB-334C-4D99-A980-F7BCA316D550Q38156730-7BE81E59-52F6-40E1-8675-F7D95A14342AQ38435706-E6DBE060-E1A5-4E3F-887C-9CF78DE134B3Q38707836-16D6BB28-E035-4575-8F66-0B8C2FAF2F41Q38761087-B3454912-52D6-479C-A4C8-71C91859DF4AQ40043246-1AD988F8-0F56-4B51-BCC5-6D3A540E673DQ40172774-3BB4EAE1-FA1C-473B-B531-A3A5317EEC08Q40187650-ACE9F636-4E22-4703-BE97-7C7D0044963DQ40216595-3E44668A-57F5-4F06-A2B0-5C4B41AEBBCDQ45323787-EA645E54-162D-4CDA-BA4B-84FA6F3AE4FAQ51761118-9D05084D-AD3B-41FE-8C11-4094DF45ED66Q54252789-BDD8AB48-3B79-48B5-B225-C852857CA5DBQ55021072-37440ECF-082B-444D-B8C9-FF84E4FB81CAQ57753552-980A3550-65F4-4691-AF45-000B4BE25AC2
P2860
CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
@en
CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
@nl
type
label
CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
@en
CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
@nl
prefLabel
CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
@en
CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
@nl
P2860
P1476
CD8+ T cells patrol HSV-1-infected trigeminal ganglia and prevent viral reactivation.
@en
P2093
Anthony J St Leger
Robert L Hendricks
P2860
P2888
P304
P356
10.1007/S13365-011-0062-1
P577
2011-12-08T00:00:00Z