The role of lung dendritic cell subsets in immunity to respiratory viruses.
about
The host immune response in respiratory virus infection: balancing virus clearance and immunopathology.Heterogeneity in immune responses: from populations to single cellsThe effector T cell response to influenza infectionImmunity to viruses.Using Small RNA Deep Sequencing Data to Detect Human VirusesEarly local immune defences in the respiratory tractDifferential roles of lung dendritic cell subsets against respiratory virus infectionAlterations in gene array patterns in dendritic cells from aged humansAntigen signal strength during priming determines effector CD4 T cell function and antigen sensitivity during influenza virus challenge.Dendritic cells from aged subjects display enhanced inflammatory responses to Chlamydophila pneumoniae.Macrophages are required for dendritic cell uptake of respiratory syncytial virus from an infected epithelium.T cell responses are elicited against Respiratory Syncytial Virus in the absence of signalling through TLRs, RLRs and IL-1R/IL-18R.CD4(+) T-cell dependence of primary CD8(+) T-cell response against vaccinia virus depends upon route of infection and viral dose.Respiratory syncytial virus infection: an innate perspective.CD103+ lung dendritic cells (LDCs) induce stronger Th1/Th17 immunity to a bacterial lung infection than CD11bhi LDCs.Identification and putative roles of distinct subtypes of intestinal dendritic cells in neuroimmune communication: what can be learned from other organ systems?Fluticasone impact on airway dendritic cells in smokers: a randomized controlled trial.Dendritic Cell Trafficking and Function in Rare Lung Diseases.IL-4Rα on dendritic cells in neonates and Th2 immunopathology in respiratory syncytial virus infection.Differential responses of human dendritic cells to metabolites from the oral/airway microbiome.Bone marrow transplantation alters lung antigen-presenting cells to promote TH17 response and the development of pneumonitis and fibrosis following gammaherpesvirus infection.Early IL-1 Signaling Promotes iBALT Induction after Influenza Virus Infection.Increased TREM-2 expression on the subsets of CD11c+ cells in the lungs and lymph nodes during allergic airway inflammation.DNGR-1 is dispensable for CD8+ T-cell priming during respiratory syncytial virus infection.CD38 modulates respiratory syncytial virus-driven pro-inflammatory processes in human monocyte-derived dendritic cells.Interferon Lambda Genetics and Biology in Regulation of Viral Control.Dectin-1 Plays an Important Role in House Dust Mite-Induced Allergic Airway Inflammation through the Activation of CD11b+ Dendritic Cells.Pulmonary delivery of influenza vaccine formulations in cotton rats: site of deposition plays a minor role in the protective efficacy against clinical isolate of H1N1pdm virus.Identification of key genes and pathways in regulating immune‑induced diseases of dendritic cells by bioinformatic analysis.The Regulation of Inflammation by Innate and Adaptive Lymphocytes.CD4 T cells in protection from influenza virus: Viral antigen specificity and functional potential
P2860
Q26766467-2C85D058-2B08-4B58-8B09-BB5B32C4CEB3Q27013828-D3B07490-BE39-4194-908D-41F426DB1BE4Q30361773-501DD572-0814-468D-A3C9-8CF884D2424CQ30411004-45215D5C-641E-4ED9-A5AA-6C5654B20A21Q31073758-3C8BE140-6ABC-4885-8B37-9F65ED94FBB2Q33824093-FAEF3602-0ACE-458E-96AE-2455DC2CF1A6Q33838810-9A60B574-FF86-4377-A383-20F3129DF8B9Q34142273-D71067DC-B73D-411A-B4D9-C832067EA79BQ34146590-5F3B2D8C-BF88-4117-9B4E-A175CBF8BC7CQ34196193-C67567CA-A8E9-4FE2-8F89-B85FAEFB33D5Q35126075-3F629D6F-C86A-4B8B-9361-BB6609A78366Q36387954-971E900C-E0DB-4748-AECE-41C436BAFA58Q36459120-12FE1E7F-DE3D-489E-AEDB-FF6D60AF70FFQ37577700-E199A200-7C0C-4152-A0C4-1078A292636DQ37834957-DFCA5AF3-C64D-4242-90E7-E1FEC3939554Q38341386-810D78EB-E48E-4BBA-B2A5-6104EC6E41ABQ38442260-9E1E3383-6715-48FC-9C74-788A553996ACQ38740877-B6573D5C-3DBB-4CDF-A276-BF72116C68C4Q38847126-F59C70AA-11A0-437E-AF19-1F9AEAF02359Q38962869-31507AA2-5C47-4AB5-9574-4D7AB19310D0Q39052615-C12E07B1-0DA5-498D-8BCE-2CDA77E23BD1Q40557011-C0064242-7F3F-4730-8BEF-8C1501F8EB01Q41717327-1EBF47BE-CA09-4968-A713-0D546753B6ECQ42221684-4EA0848F-4D4C-4C7B-B267-91F447DBA0A8Q45324208-E8C87A2F-AAB8-438A-B62A-A7981F2558DBQ47141979-D4C97AE9-A7FF-453B-87C1-7A931148A90DQ48222580-60B1C0B3-1CDD-4EFF-8D81-48765EE18DBDQ49943194-20769C3C-F1B4-480E-89F5-52AA2DC7069FQ55256172-0673ACB2-2FEA-4608-9303-B1776752EA68Q55501304-96638AA0-4B86-4BDF-9D7F-AE82931032BCQ57094380-B70D9665-6DF8-4DF5-BBAE-FBF84042EACE
P2860
The role of lung dendritic cell subsets in immunity to respiratory viruses.
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
The role of lung dendritic cell subsets in immunity to respiratory viruses.
@en
type
label
The role of lung dendritic cell subsets in immunity to respiratory viruses.
@en
prefLabel
The role of lung dendritic cell subsets in immunity to respiratory viruses.
@en
P2860
P356
P1476
The role of lung dendritic cell subsets in immunity to respiratory viruses.
@en
P2093
Bart N Lambrecht
Katrijn Neyt
P2860
P356
10.1111/IMR.12100
P577
2013-09-01T00:00:00Z