Direct activation of TACE-mediated ectodomain shedding by p38 MAP kinase regulates EGF receptor-dependent cell proliferation.
about
Stress- and Rho-activated ZO-1-associated nucleic acid binding protein binding to p21 mRNA mediates stabilization, translation, and cell survivalGenomic characterization of esophageal squamous cell carcinoma: Insights from next-generation sequencingA Disintegrin and Metalloprotease 17 in the Cardiovascular and Central Nervous SystemsA biosensor for the activity of the "sheddase" TACE (ADAM17) reveals novel and cell type-specific mechanisms of TACE activationIdentification of novel interaction between ADAM17 (a disintegrin and metalloprotease 17) and thioredoxin-1.Central role of the exchange factor GEF-H1 in TNF-α-induced sequential activation of Rac, ADAM17/TACE, and RhoA in tubular epithelial cells.PKCα and PKCδ regulate ADAM17-mediated ectodomain shedding of heparin binding-EGF through separate pathways.Differential expression and localization of ADAM10 and ADAM17 during rat spermatogenesis suggest a role in germ cell differentiation.Interleukin-1 stimulates ADAM17 through a mechanism independent of its cytoplasmic domain or phosphorylation at threonine 735Tumor necrosis factor signaling requires iRhom2 to promote trafficking and activation of TACENetwork dynamics determine the autocrine and paracrine signaling functions of TNF.Glycoprotein capture and quantitative phosphoproteomics indicate coordinated regulation of cell migration upon lysophosphatidic acid stimulation.Embelin inhibits TNF-α converting enzyme and cancer cell metastasis: molecular dynamics and experimental evidence.Direct inhibition of human RANK+ osteoclast precursors identifies a homeostatic function of IL-1beta.A1 adenosine receptor-stimulated exocytosis in bladder umbrella cells requires phosphorylation of ADAM17 Ser-811 and EGF receptor transactivation.Membrane-enabled dimerization of the intrinsically disordered cytoplasmic domain of ADAM10.Systemic overexpression of TNFα-converting enzyme does not lead to enhanced shedding activity in vivoTACE activation by MAPK-mediated regulation of cell surface dimerization and TIMP3 association.Migration of growth factor-stimulated epithelial and endothelial cells depends on EGFR transactivation by ADAM17.Normal CFTR inhibits epidermal growth factor receptor-dependent pro-inflammatory chemokine production in human airway epithelial cells.TNF-α converting enzyme-mediated ErbB4 transactivation by TNF promotes colonic epithelial cell survivalThe ADAMs family of proteases: new biomarkers and therapeutic targets for cancer?Constitutive intestinal NF-κB does not trigger destructive inflammation unless accompanied by MAPK activation.Accelerated receptor shedding inhibits kidney injury molecule-1 (KIM-1)-mediated efferocytosis.Shedding of the Mer tyrosine kinase receptor is mediated by ADAM17 protein through a pathway involving reactive oxygen species, protein kinase Cδ, and p38 mitogen-activated protein kinase (MAPK).Inhibitory role of TACE/ADAM17 cytotail in protein ectodomain sheddingHigh-throughput protease activity cytometry reveals dose-dependent heterogeneity in PMA-mediated ADAM17 activation.Quantitative analysis of gradient sensing: towards building predictive models of chemotaxis in cancer.Release of Matrix Metalloproteinases-2 and 9 by S-Nitrosylated Caveolin-1 Contributes to Degradation of Extracellular Matrix in tPA-Treated Hypoxic Endothelial Cells.Mapping the follicle-stimulating hormone-induced signaling networks.Distinct Intracellular Domain Substrate Modifications Selectively Regulate Ectodomain Cleavage of NRG1 or CD44.α-Lipoic acid reduces neurogenic hypertension by blunting oxidative stress-mediated increase in ADAM17.Differentiation-induced skin cancer suppression by FOS, p53, and TACE/ADAM17.A systematic study of modulation of ADAM-mediated ectodomain shedding by site-specific O-glycosylation.A role for cGMP in inducible nitric-oxide synthase (iNOS)-induced tumor necrosis factor (TNF) α-converting enzyme (TACE/ADAM17) activation, translocation, and TNF receptor 1 (TNFR1) shedding in hepatocytes.Serum amyloid A inhibits RANKL-induced osteoclast formation.Epidermal growth factor receptor signalling regulates granulocyte-macrophage colony-stimulating factor production by airway epithelial cells and established allergic airway diseaseShedding of TNF receptor 2 by effector CD8⁺ T cells by ADAM17 is important for regulating TNF-α availability during influenza infection.Mst1 shuts off cytosolic antiviral defense through IRF3 phosphorylationADAM-10 and -17 regulate endometriotic cell migration via concerted ligand and receptor shedding feedback on kinase signaling
P2860
Q24338583-5E88883A-1EB0-4EEB-AE8C-6A1F30F006FDQ26768533-C61C05B5-E12E-4E93-AD8F-1468AA2B7E06Q28072451-043D0AF7-AEF2-4EB1-9BE7-62EC7541A771Q28831250-84852D10-1BEB-478D-BB59-B6AA90C21756Q30415770-CA4B0934-9E58-4223-AD61-906FDBEFC57AQ30538069-03A86661-153F-48FC-99BA-9685671E5692Q31001916-DFF74043-E994-4CE5-90B7-53B5764E0689Q33911904-4C21346B-B192-46FB-885C-32504C2C1A8CQ34181792-7CAC5D94-273A-4751-A284-71FF6A9F590AQ34247194-E6296558-2070-441B-BB9F-7B8047D52301Q34271348-A4BE419B-13BC-46B7-A5CD-4609C46FFDC6Q34320713-C593A657-1C63-423A-8627-0C3B38C528CEQ34410435-D729CE06-A443-4406-9E9D-8A594F38DA73Q34467768-25A18537-EE4E-4811-8F53-9841C20E1D10Q34505020-129A4372-934C-442A-9054-7B976368C5B7Q34526248-77FAC4F1-9F63-4253-91FC-3FAD52BEDA45Q34559443-22EAE505-95C3-42AC-8026-B8906D0732BDQ34626693-7A55B446-2004-47E0-A82C-32DD5BD45316Q34781580-DE176BEB-FC55-42A3-9759-43F662DD1315Q34974166-1AB6D736-8729-4ABB-876D-E705662B2D6EQ35159615-3F255F47-25E6-43D0-AA61-48EAEFF8815EQ35206311-F39140B7-4BC6-4E08-B511-486D8D72E3DCQ35208373-AC14FBC3-F5F2-422C-B0F3-97757406E804Q35235319-68570228-5EFB-495D-8E7B-2CAA8847CCC7Q35312825-168CAE42-B8E8-4866-B966-7F0E20BCBC26Q35575197-D262DB66-B093-4BA7-A0EA-18B8C59FB5CAQ35598075-5A8C4F75-B644-4798-93E9-E649DF9729B2Q35873733-1385D828-CB1D-4C49-B8E8-CBFBD178DE65Q35924774-BDCA9324-4EB2-41DC-B298-E9E6EA0B818EQ35999305-E9CE7441-FE63-43E2-88B5-9A70E43BE5CBQ36033357-86B79ED3-7288-44C6-8C89-B3491D6EA6F8Q36114331-5DA4D46E-3D0F-4955-9A8D-901B2279195BQ36129113-C806B552-899A-4143-88FD-9D8DF833B701Q36332111-42828903-6557-4698-8DB4-6DF7AC5F9E3BQ36332760-4E9B041B-DDDB-4DBF-AC18-B464E76DDAA7Q36356941-E8151473-3869-40EA-B472-8901E0ECB17EQ36520488-1FEACDB7-6B1C-451E-A266-D53CEB22F338Q36606971-FF7CE43D-71D5-4433-9B3B-23529D7C4FA9Q36891691-07381481-7843-4D7D-AD06-3FFE570958ADQ36895696-54737918-3C3A-4CFB-AEA7-0BC7C722AF28
P2860
Direct activation of TACE-mediated ectodomain shedding by p38 MAP kinase regulates EGF receptor-dependent cell proliferation.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Direct activation of TACE-medi ...... -dependent cell proliferation.
@ast
Direct activation of TACE-medi ...... -dependent cell proliferation.
@en
Direct activation of TACE-medi ...... -dependent cell proliferation.
@nl
type
label
Direct activation of TACE-medi ...... -dependent cell proliferation.
@ast
Direct activation of TACE-medi ...... -dependent cell proliferation.
@en
Direct activation of TACE-medi ...... -dependent cell proliferation.
@nl
prefLabel
Direct activation of TACE-medi ...... -dependent cell proliferation.
@ast
Direct activation of TACE-medi ...... -dependent cell proliferation.
@en
Direct activation of TACE-medi ...... -dependent cell proliferation.
@nl
P2860
P1433
P1476
Direct activation of TACE-medi ...... -dependent cell proliferation.
@en
P2093
Pinglong Xu
Rik Derynck
P2860
P304
P356
10.1016/J.MOLCEL.2010.01.034
P577
2010-02-01T00:00:00Z