CD11b regulates recruitment of alveolar macrophages but not pulmonary dendritic cells after pneumococcal challenge.
about
Detection and quantitation of eosinophils in the murine respiratory tract by flow cytometry.Technical challenges in the isolation and analysis of circulating tumor cellsPulmonary dendritic cell development and antigen acquisitionEfficacy of β-Lactam-plus-Macrolide Combination Therapy in a Mouse Model of Lethal Pneumococcal PneumoniaAlveolar Macrophages Prevent Lethal Influenza Pneumonia By Inhibiting Infection Of Type-1 Alveolar Epithelial CellsRespiratory infections: do we ever recover?Eruptive papules during efalizumab (anti-CD11a) therapy of psoriasis vulgaris: a case series.The RNA uridyltransferase Zcchc6 is expressed in macrophages and impacts innate immune responses.Critical role of airway macrophages in modulating disease severity during influenza virus infection of mice.Pneumolysin expression by streptococcus pneumoniae protects colonized mice from influenza virus-induced diseasePulmonary dendritic cells and alveolar macrophages are regulated by gammadelta T cells during the resolution of S. pneumoniae-induced inflammation.Cigarette smoke affects dendritic cell maturation in the small airways of patients with chronic obstructive pulmonary disease.Safety and biocompatibility of carbohydrate-functionalized polyanhydride nanoparticles.CD103+ pulmonary dendritic cells preferentially acquire and present apoptotic cell-associated antigen.Blockade of Interplay between IL-17A and Endoplasmic Reticulum Stress Attenuates LPS-Induced Lung InjuryProtective role of spleen-derived macrophages in lung inflammation, injury, and fibrosis induced by nitrogen mustard.Pilus adhesin RrgA interacts with complement receptor 3, thereby affecting macrophage function and systemic pneumococcal diseaseThe Variable Region of Pneumococcal Pathogenicity Island 1 Is Responsible for Unusually High Virulence of a Serotype 1 IsolateEvidence for the involvement of lung-specific gammadelta T cell subsets in local responses to Streptococcus pneumoniae infectionCharacterization of Distinct Macrophage Subpopulations during Nitrogen Mustard-Induced Lung Injury and Fibrosis.Surfactant protein-A inhibits mycoplasma-induced dendritic cell maturation through regulation of HMGB-1 cytokine activityThe impact of successive infections on the lung microenvironment.c-di-GMP is an effective immunomodulator and vaccine adjuvant against pneumococcal infection.Lung environment determines unique phenotype of alveolar macrophagesSIGNR1-negative red pulp macrophages protect against acute streptococcal sepsis after Leishmania donovani-induced loss of marginal zone macrophagesThe CCL7-CCL2-CCR2 axis regulates IL-4 production in lungs and fungal immunity.The influence of antigen targeting to sub-cellular compartments on the anti-allergic potential of a DNA vaccine.Dendritic cells matured by inflammation induce CD86-dependent priming of naive CD8+ T cells in the absence of their cognate peptide antigen.Alveolar macrophages transport pathogens to lung draining lymph nodes.Inhibition of lectin-mediated innate host defences in vivo modulates disease severity during influenza virus infection.Boosting efferocytosis in alveolar space using BCG vaccine to protect host against influenza pneumonia.The lung is protected from spontaneous inflammation by autophagy in myeloid cellsRole of type I interferon signaling in human metapneumovirus pathogenesis and control of viral replication.Optimization of methods to study pulmonary dendritic cell migration reveals distinct capacities of DC subsets to acquire soluble versus particulate antigen.Antigen-presenting cell population dynamics during murine silicosis.Inhibitory kappaB kinase 2 activates airway epithelial cells to stimulate bone marrow macrophages.Lung effector memory and activated CD4+ T cells display enhanced proliferation in surfactant protein A-deficient mice during allergen-mediated inflammation.Surfactant protein D augments bacterial association but attenuates major histocompatibility complex class II presentation of bacterial antigens.Analogous detection of circulating tumor cells using the AccuCyte® -CyteFinder® system and ISET system in patients with locally advanced and metastatic prostate cancer.Dendritic cells inversely regulate airway inflammation in cigarette smoke-exposed mice.
P2860
Q24657793-3EEF2497-7C64-4FD6-B447-FB31369BD228Q26741646-C94BC342-4BE2-4180-BA72-9E23D0DA6609Q26864537-46A85AF2-E3C6-4389-9425-BFE5DBF38BB6Q28390204-FAAF4224-7459-44ED-9811-14BD85FCAA26Q30275003-C54B166B-703A-4AE6-BB09-47E4D450D376Q30366426-CC3288B3-11A7-4CDD-AC9E-9DFD7F01304CQ33275618-273C0B5B-7F31-4AB0-AEA7-8DA971A30C8FQ33859901-30FD9CF0-3836-416E-BBD0-C0E386CC8C08Q33964051-2D519713-ADFE-49E7-8082-0227E404C861Q34149169-322F77AE-570D-4120-9946-415EF3280263Q34269229-659E6894-BC40-485B-9611-4B15894231BFQ34540870-C1671A48-EF9F-4E42-BB48-DF5943FE5890Q34871862-D40A5859-AD93-448B-AB7B-017378AD175EQ35208349-915D8C7D-1E1A-4C0E-8C68-F3EB3A5F980EQ36191602-EA3C9C4E-237C-417A-8D42-4CFC4C5A45D2Q36382156-51873443-3D3B-4B7A-8494-34B35D9C41A4Q36492981-85F58657-F95A-472B-BFBC-E51C9114F645Q36631353-4E27C9EE-8D11-44AD-B03E-FC0D82DC4153Q36732107-C4E5712C-FF08-4488-B068-7502594DFC35Q36765892-95653E5E-2442-4889-9339-F2DAE498BBD2Q36802145-CF510A55-D277-4670-B63A-105EABA7FB93Q36996502-CEF641E5-59F6-430C-BAC1-60AD476166B8Q37109444-7BD5C7A8-36D6-4ECF-847B-71ED1FA18FC3Q37218071-219FDC2E-93D9-4E4F-BB06-959BA897D209Q37316503-EECEE343-E649-47FD-A8C1-047D094EF5DFQ37346633-7C726351-36AB-4CA1-A2F4-32FC9BDA671DQ37502385-9B7EDEFE-F9EE-4A5D-BE49-1693DF605769Q39349502-EF6CBFAD-4353-4B2A-B855-8942331ADBA4Q39349537-1D55C1C5-F997-4578-AD9B-E88FB9BB174DQ39645492-F5AAC08B-0DE4-48D8-842F-CB5922234AABQ40131879-0F1CF612-F127-40C4-BD5F-EDE4B32318AEQ40734205-B7CCB24E-5FF7-4337-A9BC-265DE5A760A0Q41013010-7521220D-7370-47BC-9CE7-22AB851162E9Q41782597-63116F79-5048-4B52-B7D7-4906D38F2485Q41958313-4E725E51-EA56-4685-A7DC-75CA913DCE41Q42066692-E1F293E1-60EF-4A20-9BF4-D6459F2A8473Q42090368-3FC7CAA8-8447-4B01-A2BD-436F76224823Q42272101-9BE797CB-2563-4FF5-9588-71F0E2BFE8D8Q47760107-772AF18B-850F-4A46-B40B-B103E33AF540Q51582697-FFDCD37D-8A00-4352-80FC-29585AE23D1B
P2860
CD11b regulates recruitment of alveolar macrophages but not pulmonary dendritic cells after pneumococcal challenge.
description
2005 nî lūn-bûn
@nan
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
2005年论文
@zh
2005年论文
@zh-cn
name
CD11b regulates recruitment of ...... after pneumococcal challenge.
@en
CD11b regulates recruitment of ...... after pneumococcal challenge.
@nl
type
label
CD11b regulates recruitment of ...... after pneumococcal challenge.
@en
CD11b regulates recruitment of ...... after pneumococcal challenge.
@nl
prefLabel
CD11b regulates recruitment of ...... after pneumococcal challenge.
@en
CD11b regulates recruitment of ...... after pneumococcal challenge.
@nl
P2093
P356
P1476
CD11b regulates recruitment of ...... after pneumococcal challenge.
@en
P2093
Alun C Kirby
John G Raynes
Paul M Kaye
P304
P356
10.1086/498874
P407
P577
2005-12-01T00:00:00Z