2008
Structural and biochemical characterization of the KRLB region in insulin receptor substrate-2
Wu J, Tseng Y, Xu C, Neubert T, White M, Hubbard S. Structural and biochemical characterization of the KRLB region in insulin receptor substrate-2. Nature Structural & Molecular Biology 2008, 15: 251-258. PMID: 18278056, DOI: 10.1038/nsmb.1388.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsCHO CellsCricetinaeCricetulusCrystallography, X-RayHumansInsulin Receptor Substrate ProteinsIntracellular Signaling Peptides and ProteinsMiceModels, MolecularMolecular Sequence DataMutationPhosphoproteinsPhosphorylationPhosphotyrosineProtein BindingProtein Structure, TertiaryProtein-Tyrosine KinasesReceptor, IGF Type 1Structure-Activity RelationshipSubstrate SpecificityConceptsInsulin receptorPleckstrin homology domainCrucial adaptor proteinTwo-hybrid studiesInsulin receptor kinaseKinase active siteInsulin receptor substrate 2C-terminal regionTyrosine kinase domainPrevious yeastThreonine phosphorylationHomology domainAdaptor proteinReceptor kinaseKinase domainTyrosine phosphorylationBiochemical characterizationRegion functionsSubstrate 2Binding regionsPhosphorylationKinase inhibitionFactor 1IRS2Insulin-like growth factor-1
1999
Stimulation of pancreatic beta-cell proliferation by growth hormone is glucose-dependent: signal transduction via janus kinase 2 (JAK2)/signal transducer and activator of transcription 5 (STAT5) with no crosstalk to insulin receptor substrate-mediated mitogenic signalling.
Cousin S, Hügl S, Myers M, White M, Reifel-Miller A, Rhodes C. Stimulation of pancreatic beta-cell proliferation by growth hormone is glucose-dependent: signal transduction via janus kinase 2 (JAK2)/signal transducer and activator of transcription 5 (STAT5) with no crosstalk to insulin receptor substrate-mediated mitogenic signalling. Biochemical Journal 1999, 344 Pt 3: 649-58. PMID: 10585851, PMCID: PMC1220686, DOI: 10.1042/0264-6021:3440649.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAdaptor Proteins, Vesicular TransportAnimalsCell DivisionCell LineDNA-Binding ProteinsGlucoseGRB2 Adaptor ProteinGrowth HormoneInsulin Receptor Substrate ProteinsInsulin-Like Growth Factor IIntracellular Signaling Peptides and ProteinsIslets of LangerhansJanus Kinase 2Milk ProteinsMitogen-Activated Protein KinasesPhosphoproteinsPhosphorylationProteinsProtein-Tyrosine KinasesProto-Oncogene ProteinsRatsRibosomal Protein S6 KinasesShc Signaling Adaptor ProteinsSignal TransductionSon of Sevenless Protein, DrosophilaSrc Homology 2 Domain-Containing, Transforming Protein 1STAT5 Transcription FactorTrans-ActivatorsConceptsINS-1 cell proliferationSignal transduction pathwaysSignal transductionCell proliferationKinase 2Sevenless-1 proteinMitogenic signal transduction pathwaysJAK2/STAT5 pathwayMitogen-activated protein kinaseInsulin receptor substrateBeta-cell proliferationRat growth hormoneJAK2/STAT5Pancreatic beta cell proliferationMitogenic signalingS6 kinaseProtein kinaseProtein associationTranscription 5Beta-cell lineReceptor substrateDifferent mitogenicRat beta-cell lineDownstream activationIRS-2
1997
Janus Kinase-dependent Activation of Insulin Receptor Substrate 1 in Response to Interleukin-4, Oncostatin M, and the Interferons*
Burfoot M, Rogers N, Watling D, Smith J, Pons S, Paonessaw G, Pellegrini S, White M, Kerr I. Janus Kinase-dependent Activation of Insulin Receptor Substrate 1 in Response to Interleukin-4, Oncostatin M, and the Interferons*. Journal Of Biological Chemistry 1997, 272: 24183-24190. PMID: 9305869, DOI: 10.1074/jbc.272.39.24183.Peer-Reviewed Original ResearchConceptsInsulin receptor substrate-1Receptor substrate-1IRS-1IRS proteinsOncostatin MSubstrate-1Protein tyrosine kinasesKinase-dependent activationActivation of phosphatidylinositolJanus kinase (JAK) familyMutant cell linesHuman fibrosarcoma cell lineCell linesInsulin-like growth factor receptorHuman fibrosarcoma cellsKinase familyGrowth factor receptorFibrosarcoma cell lineIRS-2Cytokine receptorsType I interferonJAK1PhosphorylationAntiviral responseFibrosarcoma cellsInteraction of p59fynwith Interferon-Activated Jak Kinases
Uddin S, Sher D, Alsayed Y, Pons S, Colamonici O, Fish E, White M, Platanias L. Interaction of p59fynwith Interferon-Activated Jak Kinases. Biochemical And Biophysical Research Communications 1997, 235: 83-88. PMID: 9196040, DOI: 10.1006/bbrc.1997.6741.Peer-Reviewed Original ResearchAntibodies, MonoclonalBlotting, WesternGlutathione TransferaseHumansInterferon Type IInterferon-gammaJanus Kinase 1Janus Kinase 2PhosphotyrosineProteinsProtein-Tyrosine KinasesProto-Oncogene MasProto-Oncogene ProteinsProto-Oncogene Proteins c-cblProto-Oncogene Proteins c-fynRecombinant Fusion ProteinsRecombinant ProteinsSignal TransductionSrc Homology DomainsTumor Cells, CulturedTYK2 KinaseUbiquitin-Protein Ligases
1996
Cross-talk between the insulin and angiotensin signaling systems.
Velloso L, Folli F, Sun X, White M, Saad M, Kahn C. Cross-talk between the insulin and angiotensin signaling systems. Proceedings Of The National Academy Of Sciences Of The United States Of America 1996, 93: 12490-12495. PMID: 8901609, PMCID: PMC38019, DOI: 10.1073/pnas.93.22.12490.Peer-Reviewed Original ResearchMeSH KeywordsAngiotensin IIAnimalsElectrophoresis, Polyacrylamide GelInsulinInsulin Receptor Substrate ProteinsIntracellular Signaling Peptides and ProteinsJanus Kinase 1Janus Kinase 2Janus Kinase 3MalePhosphatidylinositol 3-KinasesPhosphoproteinsPhosphorylationPhosphotransferases (Alcohol Group Acceptor)Protein-Tyrosine KinasesProto-Oncogene ProteinsRatsRats, WistarSignal TransductionTyrosineConceptsAngiotensin IIInjection of ANGIIEffect of AIIIRS-1/IRSAT1 receptor antagonistInsulin receptorRenal functionAT1 receptorInsulin resistanceReceptor antagonistCardiovascular diseaseAII stimulationAcute inhibitionIRS phosphorylationTyrosine phosphorylationReceptorsIRS-2Insulin-stimulated PIIRS-1G proteinsJAK2 tyrosine kinaseImportant regulatorInsulinRapid tyrosine phosphorylationTyrosine kinaseThe Fyn Tyrosine Kinase Binds Irs-1 and Forms a Distinct Signaling Complex during Insulin Stimulation (∗)
Sun X, Pons S, Asano T, Myers M, Glasheen E, White M. The Fyn Tyrosine Kinase Binds Irs-1 and Forms a Distinct Signaling Complex during Insulin Stimulation (∗). Journal Of Biological Chemistry 1996, 271: 10583-10587. PMID: 8631859, DOI: 10.1074/jbc.271.18.10583.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBase SequenceCHO CellsCricetinaeDNA PrimersEnzyme ActivationInsulinInsulin Receptor Substrate ProteinsMiceMolecular Sequence DataPhosphoproteinsProtein-Tyrosine KinasesProto-Oncogene ProteinsProto-Oncogene Proteins c-fynSignal TransductionSrc Homology DomainsSubstrate SpecificityConceptsSrc homology 2Grb-2Insulin stimulationTyrosine phosphorylation sitesInsulin/IGFSH2 domainSH2 proteinSignaling ComplexHomology 2Related Src kinasesPhosphorylation sitesIR-1Src kinaseExpression libraryP59fyn kinaseTyrosine residuesP59fynInsulin receptorIR proteinProteinSpecific associationComplexesKinaseReceptorsP85Insulin Signal Transduction and the IRS Proteins
Myers M, White M. Insulin Signal Transduction and the IRS Proteins. The Annual Review Of Pharmacology And Toxicology 1996, 36: 615-658. PMID: 8725404, DOI: 10.1146/annurev.pa.36.040196.003151.Peer-Reviewed Original ResearchConceptsIRS proteinsIntracellular tyrosine kinaseBinding of SH2Numerous intracellular signalsTyrosine phosphorylation sitesReceptor-mediated phosphorylationInsulin signal transductionPTB domainCellular physiologyPhosphorylation sitesSignal transductionIntracellular signalsExtracellular domainTyrosine kinaseCytokine receptorsBiochemical eventsInsulin receptorGlucose transportProteinPhosphorylationSignalingGrowth factorSpecific receptorsExciting moleculesPropagation of signalsInsulin-like growth factor-1 induces rapid tyrosine phosphorylation of the vav proto-oncogene product.
Uddin S, Yetter A, Katzav S, Hofmann C, White M, Platanias L. Insulin-like growth factor-1 induces rapid tyrosine phosphorylation of the vav proto-oncogene product. Experimental Hematology 1996, 24: 622-7. PMID: 8605967.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell Cycle ProteinsCell LineHumansInsulin Receptor Substrate ProteinsInsulin-Like Growth Factor IIntracellular Signaling Peptides and ProteinsMicePhosphoproteinsPhosphorylationPhosphotyrosineProtein-Tyrosine KinasesProto-Oncogene MasProto-Oncogene ProteinsProto-Oncogene Proteins c-vavSignal TransductionConceptsSrc homology 2 domainVav proto-oncogene productGuanine exchange factorAntiphosphotyrosine monoclonal antibodyProto-oncogene productInsulin-like growth factor 1 receptorIGF-1 stimulationGrowth factor 1 receptorHematopoietic cell proliferationFactor 1 receptorExchange factorSH3 domainTyrosine phosphorylationPhosphorylation statusLigand bindingMediate signalsHematopoietic cellsImmunoblotting experimentsHematopoietic originCell proliferationCell linesHuman myeloma cell linesMyeloma cell linesCellsPhosphorylation