2002
The Spectrin-Ankyrin Skeleton Controls CD45 Surface Display and Interleukin-2 Production
Pradhan D, Morrow J. The Spectrin-Ankyrin Skeleton Controls CD45 Surface Display and Interleukin-2 Production. Immunity 2002, 17: 303-315. PMID: 12354383, DOI: 10.1016/s1074-7613(02)00396-5.Peer-Reviewed Original ResearchMeSH KeywordsAnkyrinsCD3 ComplexCell MembraneHumansInterleukin-2Jurkat CellsLeukocyte Common AntigensLymphocyte ActivationMacromolecular SubstancesMembrane GlycoproteinsNeoplasm ProteinsPeptide FragmentsProtein BindingProtein Interaction MappingProtein IsoformsProtein Structure, TertiaryRecombinant Fusion ProteinsSpectrinStructure-Activity RelationshipT-LymphocytesTransfectionConceptsJurkat T cellsT cell receptor stimulationCell receptor stimulationCytoplasmic domainSurface recruitmentBetaI spectrinSpectrin peptidesT cell activationSurface displayIntracellular poolUnexpected contributionAnkyrinSpectrinCell activationReceptor stimulationCD45T cellsCellsInterleukin-2 productionGlycoproteinRecruitmentT lymphocyte functionActivationLymphocyte functionPool
2001
βIII Spectrin Binds to the Arp1 Subunit of Dynactin*
Holleran E, Ligon L, Tokito M, Stankewich M, Morrow J, Holzbaur E. βIII Spectrin Binds to the Arp1 Subunit of Dynactin*. Journal Of Biological Chemistry 2001, 276: 36598-36605. PMID: 11461920, DOI: 10.1074/jbc.m104838200.Peer-Reviewed Original ResearchMeSH KeywordsActinsAnimalsBinding SitesBrainCell MembraneCOS CellsCytoplasmCytosolDynactin ComplexElectrophoresis, Polyacrylamide GelGlutathione TransferaseImmunoblottingImmunohistochemistryMicrofilament ProteinsMicrotubule-Associated ProteinsPrecipitin TestsProtein BindingProtein IsoformsProtein Structure, TertiaryRatsSpectrinSrc Homology DomainsTwo-Hybrid System TechniquesConceptsBetaIII spectrinGolgi vesicle traffickingMicrotubule motor complexAssociation of dyneinVesicle traffickingVesicular cargoRat brain cytosolMitotic spindleIntracellular motorsCytoplasmic dyneinCleavage furrowDynactinInterphase cellsArp1Spectrin isoformsCytoplasmic vesiclesF-actinActin bindsEndoplasmic reticulumPerinuclear regionNovel localizationSpectrinDyneinBrain cytosolΒIII spectrinCaspase Remodeling of the Spectrin Membrane Skeleton during Lens Development and Aging*
Lee A, Morrow J, Fowler V. Caspase Remodeling of the Spectrin Membrane Skeleton during Lens Development and Aging*. Journal Of Biological Chemistry 2001, 276: 20735-20742. PMID: 11278555, DOI: 10.1074/jbc.m009723200.Peer-Reviewed Original ResearchConceptsLens fiber cellsFiber cellsMembrane blebbingMembrane skeletonLens developmentAlpha-spectrinSpectrin membrane skeletonMembrane skeleton componentsChick lens developmentCell-cell fusionApoptotic cellsOldest fiber cellsMembrane associationClassical apoptosisApoptotic processSpecific proteolysisTerminal differentiationAdult lensSpectrin fragmentsMembrane interdigitationsBlebbingCytoskeletal protein alpha-spectrinPermanent remodelingSkeleton componentsSpectrin
2000
α-Catenin Binds Directly to Spectrin and Facilitates Spectrin-Membrane Assembly in Vivo *
Pradhan D, Lombardo C, Roe S, Rimm D, Morrow J. α-Catenin Binds Directly to Spectrin and Facilitates Spectrin-Membrane Assembly in Vivo *. Journal Of Biological Chemistry 2000, 276: 4175-4181. PMID: 11069925, DOI: 10.1074/jbc.m009259200.Peer-Reviewed Original ResearchMeSH KeywordsAlpha CateninAnimalsBinding SitesCell LineCell MembraneCytoskeletal ProteinsDogsHumansProtein BindingSpectrinConceptsInteraction of spectrinClone A cellsΑ-catenin bindsAmino-terminal domainAmino acid regionSpectrin-actin skeletonCell-cell contactCell adhesion processesMadin-Darby canine kidneyAdhesion complexesConfluent Madin Darby canine kidneyCytoskeletal assemblyPlasma membraneDetergent solubilityMembrane assemblyAcid regionSpectrin skeletonMembrane regionsA cellsVivo roleSpectrinPhospholipid interactionsBiological membranesE-cadherinMolecular interactions
1998
The role of ankyrin and spectrin in membrane transport and domain formation
De Matteis M, Morrow J. The role of ankyrin and spectrin in membrane transport and domain formation. Current Opinion In Cell Biology 1998, 10: 542-549. PMID: 9719877, DOI: 10.1016/s0955-0674(98)80071-9.Peer-Reviewed Original ResearchConceptsAnterograde protein traffickingRole of ankyrinADP-ribosylation factorGolgi integrityProtein traffickingSpecific functional domainsSpectrin functionSecretory pathwayMotor proteinsFunctional domainsGolgi complexMembrane transportNovel insightsSpectrinRecent discoveryDomain formationAnkyrinTraffickingProteinPathwayFunctionComplexesDiscoveryDomainIdentification
1994
Beta II-spectrin (fodrin) and beta I epsilon 2-spectrin (muscle) contain NH2- and COOH-terminal membrane association domains (MAD1 and MAD2).
Lombardo C, Weed S, Kennedy S, Forget B, Morrow J. Beta II-spectrin (fodrin) and beta I epsilon 2-spectrin (muscle) contain NH2- and COOH-terminal membrane association domains (MAD1 and MAD2). Journal Of Biological Chemistry 1994, 269: 29212-29219. PMID: 7961888, DOI: 10.1016/s0021-9258(19)62032-6.Peer-Reviewed Original ResearchConceptsPleckstrin homology domainBeta II spectrinHomology domainSequence motifsBeta III-spectrinBrain spectrinGlutathione S-transferase fusion proteinRepeat 1S-transferase fusion proteinMembrane association domainNovel functional motifsCOOH-terminal domainG protein bindingDistinct sequence motifsBovine brain spectrinCOOH-terminal sequenceAssociation domainMembrane associationProtein 4.1Spectrin functionSequence comparisonPlasma membraneFunctional motifsRecombinant proteins
1989
Fodrin as a differentiation marker. Redistributions in colonic neoplasia.
Younes M, Harris A, Morrow J. Fodrin as a differentiation marker. Redistributions in colonic neoplasia. American Journal Of Pathology 1989, 135: 1197-212. PMID: 2596576, PMCID: PMC1880505.Peer-Reviewed Original ResearchConceptsPolarized epithelial cellsDistribution of fodrinImmunofluorescent confocal microscopyMadin-Darby canine kidney cellsCultured Madin-Darby canine kidney (MDCK) cellsMicrovillar brush borderCanine kidney cellsCell polarityCytoplasmic faceDisease samplesPlasma membraneReceptor domainPathologic stressMature cellsMDCK cellsFodrinDifferentiation markersTerminal webConfocal microscopyVillus maturationKidney cellsPrecise roleEpithelial cellsCrohn's disease samplesTotal poolAnkyrin links fodrin to the alpha subunit of Na,K-ATPase in Madin-Darby canine kidney cells and in intact renal tubule cells.
Morrow J, Cianci C, Ardito T, Mann A, Kashgarian M. Ankyrin links fodrin to the alpha subunit of Na,K-ATPase in Madin-Darby canine kidney cells and in intact renal tubule cells. Journal Of Cell Biology 1989, 108: 455-465. PMID: 2537316, PMCID: PMC2115445, DOI: 10.1083/jcb.108.2.455.Peer-Reviewed Original ResearchConceptsMadin-Darby canine kidney cellsCanine kidney cellsK-ATPaseAlpha subunitMolecular mechanismsMDCK cellsMinor membrane proteinsDistribution of fodrinErythrocyte ankyrinConfluent MDCK cellsBinding of ankyrinKidney cellsHuman erythrocyte ankyrinRenal epithelial cellsCytoplasmic domainNonerythroid cellsMembrane proteinsCortical cytoskeletonBasolateral domainMembrane skeletonPolarized distributionAnkyrinBasolateral marginsCell developmentErythrocyte band 3An unusual beta-spectrin associated with clustered acetylcholine receptors.
Bloch R, Morrow J. An unusual beta-spectrin associated with clustered acetylcholine receptors. Journal Of Cell Biology 1989, 108: 481-493. PMID: 2645300, PMCID: PMC2115447, DOI: 10.1083/jcb.108.2.481.Peer-Reviewed Original Research