2004
Roles of the Proline-rich Domain in SLP-76 Subcellular Localization and T Cell Function* [boxs]
Singer AL, Bunnell SC, Obstfeld AE, Jordan MS, Wu JN, Myung PS, Samelson LE, Koretzky GA. Roles of the Proline-rich Domain in SLP-76 Subcellular Localization and T Cell Function* [boxs]. Journal Of Biological Chemistry 2004, 279: 15481-15490. PMID: 14722089, DOI: 10.1074/jbc.m313339200.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAlanineAntigens, CDAntigens, Differentiation, T-LymphocyteArginineBlotting, WesternCalciumCell LineCell LineageFlow CytometryGene DeletionGenes, DominantHematopoietic Stem CellsHumansJurkat CellsLectins, C-TypeLuciferasesLymphocyte ActivationLysineMembrane MicrodomainsModels, BiologicalMutationPhosphoproteinsPlasmidsPrecipitin TestsProlineProtein Structure, TertiarySignal TransductionSrc Homology DomainsSubcellular FractionsTime FactorsT-LymphocytesTransfectionConceptsSLP-76P1 domainSLP-76 functionProline-rich domainProline-rich regionDomain deletion mutantMultiple hematopoietic lineagesLeukocyte-specific phosphoproteinSrc homologyDeletion mutantsSignal transductionSubcellular localizationHematopoietic lineagesFunctional roleProtein fragmentsT cell receptorMolecular scaffoldsCell functionCell receptorLocalizationComplementary approachesDomainT cell functionMolecular associationDirect evidence
2003
Macrophage activation and Fcγ receptor-mediated signaling do not require expression of the SLP-76 and SLP-65 adaptors
Nichols KE, Haines K, Myung PS, Newbrough S, Myers E, Jumaa H, Shedlock DJ, Shen H, Koretzky GA. Macrophage activation and Fcγ receptor-mediated signaling do not require expression of the SLP-76 and SLP-65 adaptors. Journal Of Leukocyte Biology 2003, 75: 541-552. PMID: 14694181, DOI: 10.1189/jlb.0703312.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAnimalsCarrier ProteinsListeria monocytogenesListeriosisMacrophage ActivationMiceMice, KnockoutPhagocytosisPhosphoproteinsReceptors, IgGRespiratory BurstSignal TransductionConceptsBone marrow-derived macrophagesSLP-76SLP-65Extracellular signaling-regulated kinase 1Sheep red blood cellsInitial host defenseLow-dose infectionNumber of liverWild-type miceSrc homology 2Functional eventsMarrow-derived macrophagesTotal body burdenReceptor-mediated signalingReceptor-induced activationRed blood cellsLeukocyte-specific phosphoproteinReactive oxygen intermediatesT lymphocytesMast cellsFc receptorsMacrophage activationListeria monocytogenesHost defenseColony-forming units
2002
Differential Requirement for LAT and SLP-76 in GPVI versus T Cell Receptor Signaling
Judd BA, Myung PS, Obergfell A, Myers EE, Cheng AM, Watson SP, Pear WS, Allman D, Shattil SJ, Koretzky GA. Differential Requirement for LAT and SLP-76 in GPVI versus T Cell Receptor Signaling. Journal Of Experimental Medicine 2002, 195: 705-717. PMID: 11901197, PMCID: PMC2193740, DOI: 10.1084/jem.20011583.Peer-Reviewed Original Research
2001
Differential Requirement for SLP-76 Domains in T Cell Development and Function
Myung P, Derimanov G, Jordan M, Punt J, Liu Q, Judd B, Meyers E, Sigmund C, Freedman B, Koretzky G. Differential Requirement for SLP-76 Domains in T Cell Development and Function. Immunity 2001, 15: 1011-1026. PMID: 11754821, DOI: 10.1016/s1074-7613(01)00253-9.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAmino Acid MotifsAmino Acid SubstitutionAnimalsBinding SitesCalcium SignalingCarrier ProteinsCD3 ComplexCell DifferentiationClonal DeletionImmunophenotypingMembrane ProteinsMiceMice, Inbred C57BLMice, KnockoutMice, TransgenicMutation, MissensePhosphoproteinsProtein Structure, TertiaryReceptors, Antigen, T-CellRecombinant Fusion ProteinsSequence DeletionSignal TransductionSpleenSrc Homology DomainsStructure-Activity RelationshipThymus GlandT-LymphocytesConceptsSLP-76T cell developmentCell developmentDifferential requirementSLP-76 functionT cell receptor signalingCell receptor signalingAdaptor proteinMolecular mechanismsNull backgroundExamination of miceReceptor signalingCell functionPeripheral T cellsNew insightsTransgenic miceStructural requirementsSpecific domainsT cell functionT cellsCellsDomainMutantsThymocytesSignalingPositive and negative regulation of t-cell activation by adaptor proteins
Koretzky G, Myung P. Positive and negative regulation of t-cell activation by adaptor proteins. Nature Reviews Immunology 2001, 1: 95-107. PMID: 11905825, DOI: 10.1038/35100523.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAnimalsCarrier ProteinsCell MovementGene TargetingHumansLymphocyte ActivationMembrane ProteinsModels, ImmunologicalPhosphoproteinsProteinsReceptors, Antigen, T-CellSignal TransductionT-LymphocytesConceptsEffector protein activityPost-translational modificationsSrc family kinasesAdaptor domainsAdaptor proteinSH3 domainFamily kinasesSubcellular localizationGenetic manipulationNegative regulationProtein activityNegative regulatorAdaptorEffector moleculesT cell activationCell linesSpatial organizationRegulatorProteinIntramolecular interactionsLymphocyte activationSH2ActivationKinaseComplexesCoupling of the TCR to Integrin Activation by SLAP-130/Fyb
Peterson E, Woods M, Dmowski S, Derimanov G, Jordan M, Wu J, Myung P, Liu Q, Pribila J, Freedman B, Shimizu Y, Koretzky G. Coupling of the TCR to Integrin Activation by SLAP-130/Fyb. Science 2001, 293: 2263-2265. PMID: 11567141, DOI: 10.1126/science.1063486.Peer-Reviewed Original ResearchMeSH KeywordsActinsAdaptor Proteins, Signal TransducingAnimalsAntigens, CDAntigens, Differentiation, T-LymphocyteCarrier ProteinsCD3 ComplexCell AdhesionCell MembraneImmunologic CappingIntercellular Adhesion Molecule-1Interleukin-2Lectins, C-TypeLymphocyte ActivationLymphocyte Function-Associated Antigen-1MicePhosphatidylinositol 3-KinasesPhosphoproteinsProtein-Tyrosine KinasesReceptors, Antigen, T-CellReceptors, Interleukin-2Signal TransductionT-Lymphocytes
2000
Hematopoietic reconstitution of SLP-76 corrects hemostasis and platelet signaling through αIIbβ3 and collagen receptors
Judd B, Myung P, Leng L, Obergfell A, Pear W, Shattil S, Koretzky G. Hematopoietic reconstitution of SLP-76 corrects hemostasis and platelet signaling through αIIbβ3 and collagen receptors. Proceedings Of The National Academy Of Sciences Of The United States Of America 2000, 97: 12056-12061. PMID: 11050236, PMCID: PMC17293, DOI: 10.1073/pnas.97.22.12056.Peer-Reviewed Original ResearchConceptsSLP-76Alpha IIbAdapter protein SLP-76SLP-76 functionSLP-76-deficient miceRapid tyrosine phosphorylationSLP-76-deficient plateletsTyrosine phosphorylated proteinsCollagen receptorCollagen receptor signalingT cell developmentPlatelet fibrinogen receptorPhosphorylated proteinsActin rearrangementCell peripheryLamellipodial extensionTyrosine phosphorylationCell developmentMurine plateletsRetroviral transductionReceptor signalingBind fibrinogenHematopoietic cellsFibrinogen receptorPlatelet-bound fibrinogenIn vitro and in vivo macrophage function can occur independently of SLP-76
Myung PS, Clements JL, White DW, Malik ZA, Cowdery JS, Allen LH, Harty JT, Kusner DJ, Koretzky GA. In vitro and in vivo macrophage function can occur independently of SLP-76. International Immunology 2000, 12: 887-897. PMID: 10837416, DOI: 10.1093/intimm/12.6.887.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAnimalsInterleukin-12ListeriosisMacrophagesMiceMitogen-Activated Protein Kinase 1PhagocytosisPhosphoproteinsPhosphorylationReactive Oxygen SpeciesReceptors, IgGSheepType C PhospholipasesTyrosineConceptsBone marrow-derived macrophagesFc gamma RWild-type miceGamma RT cellsMacrophage functionStable chronic infectionVivo macrophage functionDownstream mediatorWild-type bone marrow-derived macrophagesFc gamma R ligationCultured bone marrow-derived macrophagesMature T cellsMarrow-derived macrophagesOxygen intermediate productionPlatelet collagen receptorAcute phaseIL-12Chronic infectionMast cellsEffector functionsIFN-gammaPhagocytic functionFc gammaR stimulation