Neutrophil defensins enhance lung epithelial wound closure and mucin gene expression in vitro. - Wikidata - wikimedia - TriplyDB

Neutrophil defensins enhance lung epithelial wound closure and mucin gene expression in vitro.

Neutrophil defensins enhance lung epithelial wound closure and mucin gene expression in vitro.

http://www.wikidata.org/entity/Q44519283

about

Effects of cigarette smoke condensate on proliferation and wound closure of bronchial epithelial cells in vitro: role of glutathione High resolution genomic analysis of sporadic breast cancer using array-based comparative genomic hybridization Wound repair: role of immune-epithelial interactions Osteopontin and mucosal protection Interactions between neutrophil-derived antimicrobial peptides and airway epithelial cells Gene expression changes associated with resistance to intravenous corticosteroid therapy in children with severe ulcerative colitis Anti-bacterial effects of poly-N-acetyl-glucosamine nanofibers in cutaneous wound healing: requirement for Akt1 Role of defensins in the pathogenesis of chronic lung allograft rejection.Human alpha-defensins block papillomavirus infection Host defense peptides: an alternative as antiinfective and immunomodulatory therapeutics.Defensins couple dysbiosis to primary immunodeficiency in Crohn's disease.Antimicrobial functionalized genetically engineered spider silk.In vitro studies on the antimicrobial peptide human beta-defensin 9 (HBD9): signalling pathways and pathogen-related response (an American Ophthalmological Society thesis).Human neutrophil peptide in lung chronic allograft dysfunction.Defensins and other antimicrobial peptides at the ocular surface Tilapia Piscidin 4 (TP4) Stimulates Cell Proliferation and Wound Closure in MRSA-Infected Wounds in Mice.Biological responses to spider silk-antibiotic fusion protein.Pulmonary surfactant protein A protects lung epithelium from cytotoxicity of human β-defensin 3 Hormetic dose-response relationships in immunology: occurrence, quantitative features of the dose response, mechanistic foundations, and clinical implications.Regulation of airway mucin gene expression TNF-α and IL-1β-activated human mesenchymal stromal cells increase airway epithelial wound healing in vitro via activation of the epidermal growth factor receptor Endogenous pulmonary antibiotics.Aspects on pathophysiological mechanisms in COPD.The role of cathelicidin and defensins in pulmonary inflammatory diseases.The roles of antimicrobial peptides in innate host defense.Antimicrobial peptides and induced membrane curvature: geometry, coordination chemistry, and molecular engineering.Epithelial cell-derived antimicrobial peptides are multifunctional agents that bridge innate and adaptive immunity.Signal pathway of 17beta-estradiol-induced MUC5B expression in human airway epithelial cells.Pseudomonas aeruginosa LasB protease impairs innate immunity in mice and humans by targeting a lung epithelial cystic fibrosis transmembrane regulator-IL-6-antimicrobial-repair pathway.Oncogenic relevant defensins: expression pattern and proliferation characteristics of human tumor cell lines.Transgenic expression of human neutrophil peptide-1 enhances hepatic fibrosis in mice fed a choline-deficient, L-amino acid-defined diet.Low concentrations of human neutrophil peptide ameliorate experimental murine colitis.Neutrophils promote alveolar epithelial regeneration by enhancing type II pneumocyte proliferation in a model of acid-induced acute lung injury.Different effects of telithromycin on MUC5AC production induced by human neutrophil peptide-1 or lipopolysaccharide in NCI-H292 cells compared with azithromycin and clarithromycin.Neutrophil alpha-defensins cause lung injury by disrupting the capillary-epithelial barrier.In vitro activity of human beta-defensin 2 against Pseudomonas aeruginosa in the presence of tear fluid.DNA Aptamers for the Characterization of Histological Structure of Lung Adenocarcinoma.G2A Attenuates Propionibacterium acnes Induction of Inflammatory Cytokines in Human Monocytes.Current and Prospective Protein Biomarkers of Lung Cancer.Pharmacological modulation of the bradykinin-induced differentiation of human lung fibroblasts: effects of budesonide and formoterol.

P2860

Q24812335-EFE24959-E2CB-46B7-8014-CC0A21FC953E Q25257525-969BC6AF-5897-4C2D-9690-D2403EF968E0 Q26801818-81F36FE5-4494-4DEE-9394-DCB61A9D94EE Q28236080-FF45E564-AF91-4B23-BA45-F2B1308F0FFC Q28297764-7CA073DE-513F-4940-8121-EB9D5C458D8F Q28475658-2B98F325-A805-4F2A-805C-A57764081B10 Q28740605-A220BD9A-6382-402B-A2B0-C6D799727DDF Q33570756-0286BBE5-6B78-42DB-9AE1-1B6AE3FE717D Q34334899-541DAC50-4DC1-4933-9DAD-BB33E8DDA36E Q34495298-C1ECAAE1-A6BC-4F26-940B-651B3BCEF54D Q34579734-F9701C96-1779-4EDE-8B2F-8BC717636AEF Q34851126-E2397B9D-71C3-4BAF-A22C-56B68689EAE0 Q35030919-6451BB5E-0851-49F0-8505-5BCABB95ADB3 Q35569280-F1E80ECA-2D13-4DAA-9BC6-88525B3E8AAD Q35594084-67972EC9-DA5C-4998-AD6C-06078D12743B Q35657452-7F14FF0E-5A73-498F-A27F-3E36DE0EEBF6 Q35910841-CB02F278-F271-4376-ABB2-3A43C4272DDB Q35922420-435EFE7B-A502-49B9-8A08-F39A16A54821 Q36102139-B30F3559-3EAB-4D87-8DBB-FDF0B6413E65 Q36216587-1E62A443-D828-4C28-90B9-4A5852E23A98 Q36454721-DC0BBF5E-A182-4F9B-9EA4-48AF2E27D55E Q36487901-AAFBDCD2-68E0-47C5-9CE5-568EE92C56E2 Q36909567-7F43A187-2772-4900-8501-4B11B41D28B0 Q36922272-C9884402-ECFF-4483-87AA-856643716460 Q37361213-30F7667B-ABF8-441F-961F-78C52C23E0FD Q37724182-DC9263F0-BC48-4C30-AD80-6417D8829E7C Q37780272-893664D4-E223-4EB1-87A6-14B690648052 Q38499582-7802E593-3204-487E-A53F-5413991FDB3F Q38633253-9B594A14-5CE1-4BC4-98C7-22CE2283D057 Q38808383-A76D44E3-56E2-4211-9CC0-C8079476976C Q39150702-88710A86-EE99-494A-BC57-8D97ACBEAB07 Q39190445-324B91D2-F02E-43FF-B0D1-9CA05324C527 Q39330752-E45CB548-9207-45A1-A879-C3DFB008717D Q39927792-56E68B95-7B05-4E58-A9F5-2AF91068C011 Q40287076-6F9463E3-3EDE-49D0-B60D-10DDDB8EC3AF Q41852819-8264DCA8-3560-4779-9C79-2BCAB4821A1F Q41898283-515A2F23-9BF7-4F90-953B-BCD8DAFCFA01 Q47115025-A6F06D5A-27C7-44E9-B4EF-0F506C388C08 Q47130839-03F775C7-4DD4-4303-B18E-84D3E9D0D7F9 Q54476000-8C879265-531E-4E6B-8877-B8775DB5C225

P2860

Neutrophil defensins enhance lung epithelial wound closure and mucin gene expression in vitro.

http://www.wikidata.org/entity/Q44519283

description

2003 nî lūn-bûn

@nan

2003年の論文

@ja

2003年学术文章

@wuu

2003年学术文章

@zh

2003年学术文章

@zh-cn

2003年学术文章

@zh-hans

2003年学术文章

@zh-my

2003年学术文章

@zh-sg

2003年學術文章

@yue

2003年學術文章

@zh-hant

name

Neutrophil defensins enhance l ...... ucin gene expression in vitro.

@en

Neutrophil defensins enhance l ...... ucin gene expression in vitro.

@nl

type

label

Neutrophil defensins enhance l ...... ucin gene expression in vitro.

@en

Neutrophil defensins enhance l ...... ucin gene expression in vitro.

@nl

prefLabel

Neutrophil defensins enhance l ...... ucin gene expression in vitro.

@en

Neutrophil defensins enhance l ...... ucin gene expression in vitro.

@nl

P1433

Q44519283-FFD3E4B8-E4A2-4925-A00A-526F1FAB2BDB

P1476

Q44519283-36B68CC0-BC68-4370-B616-001C0797A4C8

P2093

Q44519283-318005B4-6263-4278-B165-9921CA460D67

Q44519283-5ABB4B8B-D632-46E6-9CF8-9F0E9D0F8FAA

Q44519283-7ED2AD26-9A8F-415F-A91B-300B9E0DB01E

Q44519283-7F63114F-EC29-44DF-A5E2-E74E7F485989

Q44519283-96585134-DA0D-4964-BCDC-9F95412E9626

Q44519283-AD4991B7-D8CB-4EC2-B0FB-93A496E79846

Q44519283-D0CC56D6-3832-4ADF-9E76-A54E5EAF55D3

Q44519283-D4D6983B-97FF-4AAA-AAB9-FB6A6C741F2A

P2860

Q44519283-1B62718D-7BD8-4B09-B5D5-42D27544676F

Q44519283-293A36FB-453D-4575-A8E9-9C47FCC12D12

Q44519283-39D3E178-E9A5-4C70-A9AF-DC031427BEB5

Q44519283-41517482-70A8-4303-884A-30B7C3B92F50

Q44519283-420FE512-87C0-4596-95C5-CFFF5EE527A9

Q44519283-42A537BA-D45E-4976-8D9B-C2DD7577568C

Q44519283-454AEA14-2351-413C-8C31-D579FA14C9FB

Q44519283-498FB14B-A59D-4D02-93A2-4851FBCEA769

Q44519283-49DB6F27-20E5-4A41-8290-8FB017B0B2A9

Q44519283-4B784EDC-A3B6-4193-AE21-C2648F18BCC2

P304

Q44519283-33A9D6FE-708A-42C8-B8F9-7E694A03C762

P31

Q44519283-F90B8724-62E1-4898-839C-8B116E56EA2D

P356

Q44519283-15AE1029-CE41-47C0-ADEF-970574C19426

P433

Q44519283-0356BFAB-41DC-4D73-BE15-4904817ACE6D

P478

Q44519283-B27AF6D9-99DD-4B74-A26D-10C5C16DBF5C

P577

Q44519283-F33A8453-2289-474A-840D-FA9E8BB3F339

P5875

Q44519283-1A2CEB46-0170-4C66-8679-BAAB0049AEC9

P698

Q44519283-6AA63313-0D05-4AB0-A6D2-7C46F3633201

P356

RCMB.2002-0267OC

P1433

American Journal of Respiratory Cell and Molecular Biology

P1476

Neutrophil defensins enhance l ...... ucin gene expression in vitro.

@en

P2093

J Han J M Van Krieken

http://www.w3.org/2001/XMLSchema#string

Jamil Aarbiou

http://www.w3.org/2001/XMLSchema#string

Klaus F Rabe

http://www.w3.org/2001/XMLSchema#string

Pieter S Hiemstra

http://www.w3.org/2001/XMLSchema#string

Renate M Verhoosel

http://www.w3.org/2001/XMLSchema#string

Sandra Van Wetering

http://www.w3.org/2001/XMLSchema#string

Sergey V Litvinov

http://www.w3.org/2001/XMLSchema#string

Willem I De Boer

http://www.w3.org/2001/XMLSchema#string

P2860

Beta-defensins: linking innate and adaptive immunity through dendritic and T cell CCR6

Defensins. Natural peptide antibiotics of human neutrophils

Bmk1/Erk5 is required for cell proliferation induced by epidermal growth factor

Regulation of carbamoyl phosphate synthetase by MAP kinase

Opposing effects of ERK and JNK-p38 MAP kinases on apoptosis

Identification of defensins in human lymphocyte nuclei.

The mitogen-activated protein kinase kinase/extracellular signal-regulated kinase cascade activation is a key signalling pathway involved in the regulation of G(1) phase progression in proliferating hepatocytes.

Defensins of vertebrate animals.

MAP kinases in the immune response.

Mucin apoprotein expression in COPD.

P304

193-201

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1165/RCMB.2002-0267OC

http://www.w3.org/2001/XMLSchema#string

P433

2

http://www.w3.org/2001/XMLSchema#string

P478

30

http://www.w3.org/2001/XMLSchema#string

P577

2003-07-18T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

10652563

http://www.w3.org/2001/XMLSchema#string

P698

12871849

http://www.w3.org/2001/XMLSchema#string