Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
about
A retinoic acid receptor RARα pool present in membrane lipid rafts forms complexes with G protein αQ to activate p38MAPKLipid metabolic reprogramming in cancer cellsThe Effects of Lipid Membranes, Crowding and Osmolytes on the Aggregation, and Fibrillation Propensity of Human IAPPMembrane domain formation-a key factor for targeted intracellular drug deliveryPressure effects on lipids and bio-membrane assembliesInsights into eisosome assembly and organizationGlycosyl-Phosphatidyl-Inositol (GPI)-Anchors and Metalloproteases: Their Roles in the Regulation of Exosome Composition and NKG2D-Mediated Immune RecognitionAnoikis resistance: an essential prerequisite for tumor metastasisYES oncogenic activity is specified by its SH4 domain and regulates RAS/MAPK signaling in colon carcinoma cellsCD147, CD44, and the epidermal growth factor receptor (EGFR) signaling pathway cooperate to regulate breast epithelial cell invasiveness.Alkylphosphocholine analogs for broad-spectrum cancer imaging and therapy.Effect of P2X7 receptor knockout on AQP-5 expression of type I alveolar epithelial cells.Targeting the raft-associated Akt signaling in hepatocellular carcinoma.n-3 polyunsaturated fatty acids and mechanisms to mitigate inflammatory paracrine signaling in obesity-associated breast cancer.Proteomic identification of VEGF-dependent protein enrichment to membrane caveolar-raft microdomains in endothelial progenitor cells.High Expression of FLOT1 Is Associated with Progression and Poor Prognosis in Hepatocellular CarcinomaDevelopment of chitosan/heparin nanoparticle-encapsulated cytolethal distending toxin for gastric cancer therapy.Cholesterol uptake disruption, in association with chemotherapy, is a promising combined metabolic therapy for pancreatic adenocarcinomaSialidase NEU3 dynamically associates to different membrane domains specifically modifying their ganglioside pattern and triggering Akt phosphorylation.Challenges in plasma membrane phosphoproteomics.Mechanism for adhesion G protein-coupled receptor GPR56-mediated RhoA activation induced by collagen III stimulation.RaftProt: mammalian lipid raft proteome database.Impact of the mitogen-activated protein kinase pathway on the subproteome of detergent-resistant microdomains of colon carcinoma cells.Cholesterol oxidase from Bordetella species promotes irreversible cell apoptosis in lung adenocarcinoma by cholesterol oxidationOptimum 3D Matrix Stiffness for Maintenance of Cancer Stem Cells Is Dependent on Tissue Origin of Cancer Cells.Statins Attenuate Helicobacter pylori CagA Translocation and Reduce Incidence of Gastric Cancer: In Vitro and Population-Based Case-Control StudiesInhibition of de novo Palmitate Synthesis by Fatty Acid Synthase Induces Apoptosis in Tumor Cells by Remodeling Cell Membranes, Inhibiting Signaling Pathways, and Reprogramming Gene Expression.Endocytic pH regulates cell surface localization of glycolipid antigen loaded CD1d complexesFlotillin-2 promotes metastasis of nasopharyngeal carcinoma by activating NF-κB and PI3K/Akt3 signaling pathwaysRegulation of cholesterol biosynthesis and cancer signalingIntracellular activation of EGFR by fatty acid synthase dependent palmitoylation.Epstein-Barr virus LMP1 modulates lipid raft microdomains and the vimentin cytoskeleton for signal transduction and transformationElevated expression of flotillin-1 is associated with lymph node metastasis and poor prognosis in early-stage cervical cancer.Stiffened lipid platforms at molecular force foci.The rare TXNRD1_v3 ("v3") splice variant of human thioredoxin reductase 1 protein is targeted to membrane rafts by N-acylation and induces filopodia independently of its redox active site integrity.Exosome uptake depends on ERK1/2-heat shock protein 27 signaling and lipid Raft-mediated endocytosis negatively regulated by caveolin-1.Liver fatty acid-binding protein (L-FABP) promotes cellular angiogenesis and migration in hepatocellular carcinoma.Leucine carboxyl methyltransferase 1 (LCMT1)-dependent methylation regulates the association of protein phosphatase 2A and Tau protein with plasma membrane microdomains in neuroblastoma cellsThe membrane protein LeuT in micellar systems: aggregation dynamics and detergent binding to the S2 site.High density lipoprotein biogenesis, cholesterol efflux, and immune cell function.
P2860
Q24295897-F9EEED61-98B6-469F-A3BF-FF4CA8B780A0Q26774859-BBF8A6E3-26C6-4D83-AA37-16EEFF2D0EEEQ26830682-82116829-1083-4582-8283-D16607009E13Q26998461-53442BE4-32B9-4190-A75B-95834ABD08E9Q27013658-3118D992-024B-4D5D-979C-BB8F81B83DA1Q27015743-4741A141-FBDA-4E35-BE80-529C13C592E1Q28076151-BF190053-9AFA-4340-94CF-5E27358C93C2Q28397372-DF6649C4-60A8-4ABC-A174-7774B32233D6Q30371407-E6F40079-9D19-40FC-A089-F3F1CE63222AQ30431290-D384493A-313E-4966-8FBE-BE5B9BC661DDQ30620931-CFD20D7E-041A-4701-A64F-C182CA29AA5FQ33773919-5C88B276-C150-4633-BC23-A49450DAFA42Q34177619-E4836058-A7D3-40D1-BFE7-8AC25A6BB29AQ34577978-2744A108-6B20-483F-8287-EC2B478AA521Q34661515-B6D6688D-6963-42BD-AB2B-50FD36014541Q34804240-6A3C1B86-6327-4205-B934-EA256BA1C7E1Q34984874-3A8F7AF8-C666-4A49-BAF9-B4910C49E3B3Q35134601-B5CFCE0C-DE38-4299-B5BA-C44C1B098F45Q35187335-AE303E4D-5C5D-490D-AC57-9A75DBCA0DB9Q35188015-C30A61D8-4BC6-4311-9B6C-1D315CE3A062Q35192004-386E94AF-F462-4D1D-ABF4-8AD86D9DAC09Q35253880-476A050C-E886-4109-AE76-97845D667854Q35379875-D43D70A2-D9D8-488D-ADA3-E7BA1F8768A8Q35679509-57F9FBAC-4B1B-4906-A121-6F0A883A7CC9Q35689640-C414A3FF-988D-4389-AC89-90529591C04CQ35885119-B763FB97-028E-4448-A8D2-BDE404500722Q36038735-EDBC6160-8F09-4D70-A42F-049BBB7D86DAQ36249071-FEAE5CD7-FC2C-4BDD-B173-BD9B0E256BCFQ36288650-DCAF958F-A09D-467C-930F-394D323DA504Q36418517-FD09360D-082B-48C0-9D68-D5C9228F16F5Q36544282-2F2911AF-E434-4734-9E49-B83C546372BFQ36559750-78CB202C-48B6-4DDE-B375-585DD6620AA5Q36595041-5ED8A3B8-FB28-40BD-ABAB-08EF683D1567Q36729804-501B3F80-A5BD-46C7-AD72-72793355BCC0Q36742084-8F280A5A-3231-404B-B305-5DB911DA0CA4Q36929092-2069A30B-1C32-47B9-A820-2D64D5562B9FQ37109719-4DA8559B-6B0A-42FF-AB32-EBC627D9D23CQ37189534-129EB58D-13E3-4DB6-92FA-F9536A73A65BQ37210872-0A515150-47AB-4C75-B689-7E22588084EEQ37221779-C80FF10F-A10A-425F-8D12-4CB0304C614E
P2860
Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
@en
Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
@nl
type
label
Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
@en
Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
@nl
prefLabel
Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
@en
Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
@nl
P2860
P356
P1476
Lipid rafts: signaling and sorting platforms of cells and their roles in cancer.
@en
P2093
Franz-Georg Hanisch
Simon Staubach
P2860
P304
P356
10.1586/EPR.11.2
P577
2011-04-01T00:00:00Z