Src SH3/2 domain-mediated peripheral accumulation of Src and phospho-myosin is linked to deregulation of E-cadherin and the epithelial-mesenchymal transition
about
Small proline-rich proteins (SPRR) function as SH3 domain ligands, increase resistance to injury and are associated with epithelial-mesenchymal transition (EMT) in cholangiocytesRack1 promotes epithelial cell-cell adhesion by regulating E-cadherin endocytosisDynamic interplay between adhesion surfaces in carcinomas: Cell-cell and cell-matrix crosstalkThe molecular effect of metastasis suppressors on Src signaling and tumorigenesis: new therapeutic targetsA tale of two collagen receptors, integrin β1 and discoidin domain receptor 1, in epithelial cell differentiationProtein-tyrosine kinase 6 promotes peripheral adhesion complex formation and cell migration by phosphorylating p130 CRK-associated substrateRole of cancer microenvironment in metastasis: focus on colon cancerExpression of kinase-defective mutants of c-Src in human metastatic colon cancer cells decreases Bcl-xL and increases oxaliplatin- and Fas-induced apoptosis.Integrins and cadherins join forces to form adhesive networks.Restoration of E-cadherin cell-cell junctions requires both expression of E-cadherin and suppression of ERK MAP kinase activation in Ras-transformed breast epithelial cells.Integrin-dependent actomyosin contraction regulates epithelial cell scattering.Myosin 2 is a key Rho kinase target necessary for the local concentration of E-cadherin at cell-cell contactsIntegrins regulate VE-cadherin and catenins: dependence of this regulation on Src, but not on Ras.c-Src-mediated epithelial cell migration and invasion regulated by PDZ binding site.Differential roles for actin polymerization and a myosin II motor in assembly of the epithelial apical junctional complex.Vinculin potentiates E-cadherin mechanosensing and is recruited to actin-anchored sites within adherens junctions in a myosin II-dependent manner.Tumor budding as a strong prognostic indicator in invasive ampullary adenocarcinomas.Cell contact-dependent regulation of epithelial-myofibroblast transition via the rho-rho kinase-phospho-myosin pathway.Rhamm-/- fibroblasts are defective in CD44-mediated ERK1,2 motogenic signaling, leading to defective skin wound repairAbl tyrosine kinases regulate cell-cell adhesion through Rho GTPases.The SRC-induced mesenchymal state in late-stage colon cancer cells.Crossroads of integrins and cadherins in epithelia and stroma remodeling.The Cdk5 inhibitor olomoucine promotes corneal debridement wound closure in vivo.Src promotes cutaneous wound healing by regulating MMP-2 through the ERK pathway.Tumour budding in colorectal carcinoma.Complex temporal changes in TGFβ oncogenic signaling drive thyroid carcinogenesis in a mouse modelc-Src activation promotes nasopharyngeal carcinoma metastasis by inducing the epithelial-mesenchymal transition via PI3K/Akt signaling pathway: a new and promising target for NPCDDR1 promotes E-cadherin stability via inhibition of integrin-β1-Src activation-mediated E-cadherin endocytosis.Src/FAK-mediated regulation of E-cadherin as a mechanism for controlling collective cell movement: insights from in vivo imaging.Natural history of hepatic metastases from colorectal cancer--pathobiological pathways with clinical significance.Signaling pathways in anchoring junctions of epithelial cells: cell-to-cell and cell-to-extracellular matrix interactions.Single-cell imaging of mechanotransduction in endothelial cells.PTK6 activation at the membrane regulates epithelial-mesenchymal transition in prostate cancer.Numb regulates cell-cell adhesion and polarity in response to tyrosine kinase signalling.Histidine triad nucleotide-binding protein 1 up-regulates cellular levels of p27KIP1 by targeting ScfSKP2 ubiquitin ligase and Src.The role of SRC family kinases in prostate cancer.Protrusive activity guides changes in cell-cell tension during epithelial cell scattering.c-CBL regulates melanoma proliferation, migration, invasion and the FAK-SRC-GRB2 nexus.InlA-mediated entry of Listeria monocytogenes into host cellsHouse dust mite-promoted epithelial-to-mesenchymal transition in human bronchial epithelium.
P2860
Q24304437-52C80370-B722-47EE-B709-24BF1C0A5024Q24306900-C62DFE54-7FA7-4729-A786-69E42CE47BFEQ26765201-1A87190C-A091-4125-94A2-AC72876ED867Q26782593-3EB0DBCA-4D0D-4DE0-A1C0-022C59CC0473Q26827433-8AC20E45-69BC-4467-A628-B623C1E70CA1Q28115210-6642CCA4-6478-4C0F-8EA8-2926D85C21C7Q28239062-51E9A73C-C399-4903-AE10-F499361887ECQ30163857-5226B647-D602-4451-BEBA-96109D72360EQ30427386-821933F0-C1BC-44E6-A370-BAF9AD1DDF47Q30440746-0B0DE39D-619F-4D10-8360-B0046B6DD7F9Q30443410-D3B52374-6F13-4C2F-A618-6A46ED2FDC16Q30476214-50DD09BB-3880-4B0E-B341-A07CF157FFA8Q30477010-72FF06C0-0C7A-49C9-BF25-A86A464CAF9CQ30481162-3C3D63D9-880A-4C4A-8D98-1B409D1232A8Q33841357-EB9F6EBA-80C0-427F-A42B-45120BF0B40EQ33950292-69FA3BC1-2AC5-427A-B877-908E7C6F5E4AQ35186940-7676382A-B0DF-4588-96F2-23AF4489EA7EQ35650846-4AE7187D-1F7D-4379-9C3D-A6B2F83877AEQ36119479-37CC0644-6E6D-46D0-97C5-4A493D730260Q36140702-FBB9578F-52C0-42D2-BCE7-8FB712EE23F7Q36155027-442C8932-78F6-4427-B6E7-5ABC6C5176C6Q36187740-2124C202-320E-4CFD-85B2-BAE68D1E2267Q36508655-C20B1B5B-9B74-41A4-B4A2-1DD5BA272DD7Q36630656-5717467F-666C-4918-AABD-FDE6AFB2C58AQ36699565-23C77D84-8AED-4174-8E97-F3EBB5D47546Q37205853-A73CA4B5-D364-434B-8DA6-30E5E7AC0435Q37317545-C4F6CB7C-FDE7-4641-BD1B-73F2365A6A7EQ37400161-B07E9519-F53B-4860-9BC6-D4C775E31EE6Q37916070-C529AD28-52F3-486B-BE3B-5723420F96D1Q38205428-06C8F907-6555-4E8C-871F-B3E013FBA62AQ38229109-3DBD4257-70E0-4BF3-9BA9-08839A279C17Q38235814-A0EAC7D7-92D6-4EE6-835B-6BD13E1BF714Q39125642-0DD4F5C6-F77B-4AE0-9511-E4D869F6EB38Q39824352-375E0749-25CD-4076-897A-06504B79AEF0Q39900954-F7C40970-E9B2-4916-9622-07BEE7DDF55FQ40055337-1E384B4B-FCFB-435E-B232-5B9200736D0BQ41896044-AA5EF84B-33A8-4903-93F8-44D7074B7355Q42059163-14D0446A-D18E-4A87-B0CB-933E18B8D901Q45316703-5F2245DD-7763-4340-8489-1E0C44EAA070Q47996385-DDA6FA20-B462-4EB1-BE82-C57A92480F9C
P2860
Src SH3/2 domain-mediated peripheral accumulation of Src and phospho-myosin is linked to deregulation of E-cadherin and the epithelial-mesenchymal transition
description
2004 nî lūn-bûn
@nan
2004 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Src SH3/2 domain-mediated peri ...... thelial-mesenchymal transition
@ast
Src SH3/2 domain-mediated peri ...... thelial-mesenchymal transition
@en
type
label
Src SH3/2 domain-mediated peri ...... thelial-mesenchymal transition
@ast
Src SH3/2 domain-mediated peri ...... thelial-mesenchymal transition
@en
prefLabel
Src SH3/2 domain-mediated peri ...... thelial-mesenchymal transition
@ast
Src SH3/2 domain-mediated peri ...... thelial-mesenchymal transition
@en
P2093
P2860
P356
P1476
Src SH3/2 domain-mediated peri ...... thelial-mesenchymal transition
@en
P2093
Egle Avizienyte
Margaret C Frame
Valerie G Brunton
Valerie J Fincham
P2860
P304
P356
10.1091/MBC.E03-12-0879
P577
2004-04-09T00:00:00Z