about
Apoptosis induced by knockdown of uPAR and MMP-9 is mediated by inactivation of EGFR/STAT3 signaling in medulloblastomaSoluble Urokinase Receptors in Focal Segmental Glomerulosclerosis: A Review on the Scientific Point of ViewBiomarkers in Pediatric ARDS: Future DirectionsCirculating Permeability Factors in Primary Focal Segmental Glomerulosclerosis: A Review of Proposed CandidatesInfluence of Immune Myeloid Cells on the Extracellular Matrix During Cancer MetastasisA circulating permeability factor in focal segmental glomerulosclerosis: the hunt continuesUrokinase receptor and resistance to targeted anticancer agents25th anniversary article: Rational design and applications of hydrogels in regenerative medicineRemodelling the extracellular matrix in development and diseaseToxin-based targeted therapy for malignant brain tumorsThe wound healing, chronic fibrosis, and cancer progression triadVEGF-initiated angiogenesis and the uPA/uPAR systemMatrix-bound PAI-1 supports cell blebbing via RhoA/ROCK1 signalingSingle amino acid substitutions in the chemotactic sequence of urokinase receptor modulate cell migration and invasionStructure of Collagen Receptor Integrin 1I Domain Carrying the Activating Mutation E317AOrganization, evolution and functions of the human and mouse Ly6/uPAR family genesLeukocyte adhesion and polarization: Role of glycosylphosphatidylinositol-anchored proteinsSLURP-1 modulates corneal homeostasis by serving as a soluble scavenger of urokinase-type plasminogen activatorAngiogenin interacts with the plasminogen activation system at the cell surface of breast cancer cells to regulate plasmin formation and cell migrationuPAR and cathepsin B-mediated compartmentalization of JNK regulates the migration of glioma-initiating cellsNFAT2 inhibitor ameliorates diabetic nephropathy and podocyte injury in db/db miceA strategy for full interrogation of prognostic gene expression patterns: exploring the biology of diffuse large B cell lymphomaIsothiocyanate-Functionalized Bifunctional Chelates and fac-[M(I)(CO)3](+) (M = Re, (99m)Tc) Complexes for Targeting uPAR in Prostate CanceruPA/uPAR and SERPINE1 in head and neck cancer: role in tumor resistance, metastasis, prognosis and therapy.Magnetic Nanoparticle Facilitated Drug Delivery for Cancer Therapy with Targeted and Image-Guided ApproachesSelective abrogation of the uPA-uPAR interaction in vivo reveals a novel role in suppression of fibrin-associated inflammationNumber and brightness image analysis reveals ATF-induced dimerization kinetics of uPAR in the cell membraneGene expression signatures of energetic acclimatisation in the reef building coral Acropora millepora.Correlations between integrin ανβ6 expression and clinico-pathological features in stage B and stage C rectal cancer.Bone marrow-derived immature myeloid cells are a main source of circulating suPAR contributing to proteinuric kidney disease.MMP-9, uPAR and cathepsin B silencing downregulate integrins in human glioma xenograft cells in vitro and in vivo in nude mice.Retro-inverso Urokinase Receptor Antagonists for the Treatment of Metastatic Sarcomas.Discovery and validation of an INflammatory PROtein-driven GAstric cancer Signature (INPROGAS) using antibody microarray-based oncoproteomicsPlasminogen activator urokinase expression reveals TRAIL responsiveness and supports fractional survival of cancer cells.Recent advances in bone-targeted therapies of metastatic prostate cancerSuppression of uPAR retards radiation-induced invasion and migration mediated by integrin β1/FAK signaling in medulloblastoma.Shear stress modulates macrophage-induced urokinase plasminogen activator expression in human chondrocytes.Urinary soluble urokinase receptor levels are elevated and pathogenic in patients with primary focal segmental glomerulosclerosisSuppression of osteosarcoma cell invasion by chemotherapy is mediated by urokinase plasminogen activator activity via up-regulation of EGR1.Circulating urokinase receptor as a cause of focal segmental glomerulosclerosis.
P2860
Q24298860-0F4A0AA3-2BB2-46EC-9BA8-A67DEEDCCE02Q26738374-C0C93970-1F9B-4D18-9BDA-245D0CE83372Q26744577-78D18DFA-E401-4846-A220-15356B794DBCQ26747221-A48B0489-E1BA-4447-B776-89F495067EB0Q26767150-AF59BD11-CC95-4932-ADFD-6F6B9BED1F1AQ26776389-4A5DF16D-1C6B-4E43-958C-F2AB30AC46ADQ26797385-E1134263-467C-4232-800F-0B3F316D89EFQ26827960-A69375CF-4D3F-48EF-8D22-6E95918543B4Q26864798-A4FB2CA4-C1A9-4CD9-BD85-E82AAD607581Q27006226-28AB6864-498E-4DD1-B755-36D8CF66BC20Q27014616-2D9AFFCE-F7FB-4F6A-9C55-608932339A16Q27025897-1E720825-E796-4331-9099-6D23B74B879BQ27308674-50B1454A-70EB-45C2-A6FA-2AAD93391152Q27319474-0E008A48-42CF-4A8C-B352-5F0DD4E40BB7Q27675239-EEC5623C-D5CB-40BA-9367-4FB962B4756BQ28071700-B3D02FCB-0CA4-417E-BE80-3CDF5C8CD831Q28073312-31A49E1A-8EAB-442E-9B4B-226A56250993Q28115141-1339291E-FA7A-4796-89BA-FF97D2FAC2C5Q28115958-F0680E92-E0C7-4E3C-961F-9A26AA15D36BQ28237374-07955D65-EFB4-460D-AB9C-EA0266EE3E58Q28661524-7058A116-7130-4271-9BA5-096F537B10C7Q28741787-B40BA642-9E25-4641-A85E-FA4D0AD8DCC0Q28821362-04A48063-A304-49E7-B39F-8AC910A3DF7CQ30249137-753F4B88-BD0F-42A3-BA6A-9CF298A4563FQ30354223-D2940464-B53D-488B-A602-065F5A52C00AQ30496585-309B6ABD-473D-4C03-BECE-04C3ABB15BB6Q30503536-C91A80C3-3AE4-449C-8151-7908DECC97EBQ30625719-571871DD-1FAE-4D56-8634-E29FDD788D6AQ33599336-D2BAF6FA-88AA-4A3B-BB3E-8261859EBC94Q33605113-BFCDA107-3186-4138-B94F-6058B8184933Q33640030-17C7475F-C35B-4B83-A085-C3CE8D5A447EQ33683537-B5382F47-C7A7-48A8-B825-C4601AA1FFB6Q33688456-2CFDFDB8-232B-46AE-831F-A62405DB3EEEQ33695003-F937F66F-839B-4444-A472-1FE45D536FBBQ33703763-B693A8D9-DE25-4F72-A17B-07D2550562E9Q33707627-B8781653-53B0-4ECB-B0F8-D23E5A99D004Q33766376-473BA0B3-D16C-4332-94D7-261ADF2C9792Q33783271-8DAC8976-34B1-4A66-BC49-D3FA5C3991E0Q33809324-32E02805-00AB-4E08-8177-3F2E8753FD9FQ33872298-5FD0159B-25F5-4148-A451-A519AF072D22
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
gotara zanistî
@ku-latn
scientific article published on January 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
name
Regulation of cell signalling by uPAR.
@en
Regulation of cell signalling by uPAR.
@nl
type
label
Regulation of cell signalling by uPAR.
@en
Regulation of cell signalling by uPAR.
@nl
prefLabel
Regulation of cell signalling by uPAR.
@en
Regulation of cell signalling by uPAR.
@nl
P356
P1476
Regulation of cell signalling by uPAR.
@en
P2093
Chris J Marshall
Harvey W Smith
P2888
P356
10.1038/NRM2821
P577
2010-01-01T00:00:00Z