The lactoperoxidase system links anion transport to host defense in cystic fibrosis
about
Mechanisms and function of DUOX in epithelia of the lungOxidative epithelial host defense is regulated by infectious and inflammatory stimuliThe antioxidant role of thiocyanate in the pathogenesis of cystic fibrosis and other inflammation-related diseasesThe Pseudomonas toxin pyocyanin inhibits the dual oxidase-based antimicrobial system as it imposes oxidative stress on airway epithelial cellsRedox warfare between airway epithelial cells and Pseudomonas: dual oxidase versus pyocyaninLamb model of respiratory syncytial virus-associated lung disease: insights to pathogenesis and novel treatmentsUnderstanding protein kinase CK2 mis-regulation upon F508del CFTR expressionBiological Chemistry of Hydrogen SelenideAirway Gland Structure and FunctionOxidases and peroxidases in cardiovascular and lung disease: new concepts in reactive oxygen species signalingHypochlorous acid-induced heme degradation from lactoperoxidase as a novel mechanism of free iron release and tissue injury in inflammatory diseasesDifferential gene expression in human conducting airway surface epithelia and submucosal glands.All-trans retinoic acid mediates DUOX2 expression and function in respiratory tract epitheliumHyposecretion of fluid from tracheal submucosal glands of CFTR-deficient pigs.Hypertonic saline increases lung epithelial lining fluid glutathione and thiocyanate: two protective CFTR-dependent thiols against oxidative injury.Physiology of epithelial chloride and fluid secretionIL-17A induces Pendrin expression and chloride-bicarbonate exchange in human bronchial epithelial cellsEnhancement of respiratory mucosal antiviral defenses by the oxidation of iodideDisruption of heme-peptide covalent cross-linking in mammalian peroxidases by hypochlorous acid.Inducible innate resistance of lung epithelium to infection.Chronic rhinosinusitis pathogenesis.Antiinflammatory and Antimicrobial Effects of Thiocyanate in a Cystic Fibrosis Mouse Model.Dual oxidase 2 bidirectional promoter polymorphisms confer differential immune responses in airway epithelia.The porcine lung as a potential model for cystic fibrosisNebulized thiocyanate improves lung infection outcomes in mice.Biochemical mechanisms and therapeutic potential of pseudohalide thiocyanate in human health.H2O2 stimulates cystic fibrosis transmembrane conductance regulator through an autocrine prostaglandin pathway, using multidrug-resistant protein-4Gene profiling studies in the neonatal ovine lung show enhancing effects of VEGF on the immune response.Chronic electronic cigarette exposure in mice induces features of COPD in a nicotine-dependent manner.Increased concentration of iodide in airway secretions is associated with reduced respiratory syncytial virus disease severity.The role of hypothiocyanous acid (HOSCN) in biological systems.Thiocyanate: a potentially useful therapeutic agent with host defense and antioxidant properties.Nox enzymes in allergic airway inflammation.Reactions and reactivity of myeloperoxidase-derived oxidants: differential biological effects of hypochlorous and hypothiocyanous acids.Lactoferrin: an alternative view of its role in human biological fluids.Host evasion by Burkholderia cenocepacia.New pulmonary therapies directed at targets other than CFTR.Lactoperoxidase: structural insights into the function,ligand binding and inhibition.Redox balance in cystic fibrosis.Inflammation and its genesis in cystic fibrosis.
P2860
Q24646805-8A2A0256-E689-49F7-92E9-E40F87E7CF48Q24648460-5027C482-1753-4743-B915-647BF428FB9AQ24655891-2EEDC6A5-53EA-438B-B210-6AD4FC3DFBD6Q24657390-37166CE8-83FF-4D21-B37B-8B2348E07B0DQ24657425-4B762E97-A31F-4056-87FE-DC4A9E3E4C04Q26830726-F4E186D6-1E80-43AA-A12F-962B8FFA7DE1Q27694649-0EF96370-48E0-48ED-B1BB-11AE346A9358Q28069453-93AE503D-ECD4-46AD-894A-19FF5AA86EFBQ28082284-3B713461-5A62-46A7-BA47-A34A58858B14Q28393242-1682124B-A6CE-4614-A7B2-A62957658608Q28478114-196D2458-292D-42E5-B95A-86F3D8199E59Q33360227-84E410EA-4549-4128-9C4D-66312D02D3ACQ34085559-784BF3CB-435C-4FD3-98EE-71B31F3D5D56Q34090231-6BE35569-A6E3-401F-BBD7-5E3AE98D1058Q34114476-94034194-D35D-4B88-8343-35747C2762EFQ34279597-186D06B9-62B1-4E8C-B247-942AED58E852Q35228647-F6C6FC85-39EC-46B8-83A7-160B760F32F3Q35528052-DE2C4AE3-2E99-4793-B759-91C1EA08996EQ35668057-8B49F133-D8C7-48E0-833A-9D00A2A57440Q35754472-D2B1CA39-598A-495D-B97A-1306EE3E4679Q35865515-796BB2CF-BA92-4EB4-AA6D-CCA2F2BA7507Q36049200-7A402072-7F60-4A7F-B7D1-6B3AF65F2DF5Q36369935-8031578B-2C16-4978-B17F-EC860E4C30B0Q36846439-C69E6CF0-0373-4E54-8901-DAD102D7AE09Q36965928-0387101A-2169-45AC-9D64-A64227CE367FQ37122833-4F7EB2B0-92B7-4CA5-B9A4-AD92FC8C6288Q37297957-E3B165F3-44DE-4AD2-A641-8EBD7DA9AAAAQ37467891-D8CE60DC-15EB-44C3-81CA-30E6628F70A6Q37471700-F39CD908-AF2A-4E8B-A165-41EC34F29D41Q37596130-398C86DA-73B1-47B3-9919-DF1C9A550AF9Q37631070-88C3AB45-3A17-4484-ADCE-805D06F695A3Q37698415-C4049B04-10D2-4C71-A0EF-00B59AA98D94Q37852399-493C143C-5449-420C-B9D3-50AAF8088F13Q37986199-78D765E7-5042-4528-AA09-63CB75A02B16Q38007176-656F74F8-5EC3-4DA1-B4AE-7AE956CD98EBQ38037534-459994CB-506B-445B-80D8-04B524ED4050Q38111645-591DE1AF-84F8-4DA5-A080-2316C4F43401Q38139409-098071D5-C64A-4238-BB2F-9993CD0038F2Q38198442-3EA7B16F-9ACE-495E-9E28-317BB3652906Q38579962-3F7AAE9C-4EF8-4409-9EA3-B3CC794975E4
P2860
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
description
2007 nî lūn-bûn
@nan
2007 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
name
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@ast
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@en
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@nl
type
label
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@ast
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@en
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@nl
prefLabel
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@ast
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@en
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@nl
P2093
P2860
P921
P3181
P1433
P1476
The lactoperoxidase system links anion transport to host defense in cystic fibrosis
@en
P2093
Corinne Wijkstrom-Frei
Gregory E Conner
Matthias Salathe
Scott H Randell
Vania E Fernandez
P2860
P3181
P356
10.1016/J.FEBSLET.2006.12.025
P407
P577
2007-01-23T00:00:00Z