2015
Polycystin-1 Is a Cardiomyocyte Mechanosensor That Governs L-Type Ca2+ Channel Protein Stability
Pedrozo Z, Criollo A, Battiprolu PK, Morales CR, Contreras-Ferrat A, Fernández C, Jiang N, Luo X, Caplan MJ, Somlo S, Rothermel BA, Gillette TG, Lavandero S, Hill JA. Polycystin-1 Is a Cardiomyocyte Mechanosensor That Governs L-Type Ca2+ Channel Protein Stability. Circulation 2015, 131: 2131-2142. PMID: 25888683, PMCID: PMC4470854, DOI: 10.1161/circulationaha.114.013537.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornBiomarkersCalcium Channels, L-TypeCardiomegalyCells, CulturedFibrosisHypertrophyHypotonic SolutionsMaleMechanotransduction, CellularMiceMice, KnockoutMyocytes, CardiacProtein Interaction MappingProtein StabilityProtein Structure, TertiaryRatsRats, Sprague-DawleyRecombinant Fusion ProteinsRNA InterferenceStress, MechanicalTRPP Cation ChannelsConceptsL-type calcium channel activityCalcium channel activityNeonatal rat ventricular myocytesRat ventricular myocytesKnockout miceVentricular myocytesChannel activityMechanical stretchNeonatal rat ventricular myocyte hypertrophyProtein levelsVentricular myocyte hypertrophyL-type Ca2G protein-coupled receptor-like proteinPolycystin-1Channel protein levelsCyclic mechanical stretchControl miceInterstitial fibrosisStress-induced activationCardiac massMechanical stress-induced activationCardiac functionRNAi-dependent knockdownCardiac hypertrophyLittermate controls
2014
SNAP-Tag to Monitor Trafficking of Membrane Proteins in Polarized Epithelial Cells
Stoops EH, Farr GA, Hull M, Caplan MJ. SNAP-Tag to Monitor Trafficking of Membrane Proteins in Polarized Epithelial Cells. Methods In Molecular Biology 2014, 1174: 171-182. PMID: 24947381, DOI: 10.1007/978-1-4939-0944-5_11.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell LineCell PolarityEpithelial CellsMembrane ProteinsMicroscopy, FluorescenceMolecular ImagingProtein TransportRecombinant Fusion ProteinsTrans-Golgi NetworkConceptsMembrane proteinsSNAP-tagTrans-Golgi networkPolarized epithelial cellsBasolateral membrane proteinsSNAP-tag systemEpithelial cellsFluorescence microscopic analysisBiochemical approachesPlasma membraneTrafficking routesSubcellular distributionProteinConfocal microscopySDS-PAGEMicroscopic analysisTagsCellsTraffickingTag systemMembranePool
2009
Chapter 11 Detecting the Surface Localization and Cytoplasmic Cleavage of Membrane-Bound Proteins
Chapin HC, Rajendran V, Capasso A, Caplan MJ. Chapter 11 Detecting the Surface Localization and Cytoplasmic Cleavage of Membrane-Bound Proteins. Methods In Cell Biology 2009, 94: 223-239. PMID: 20362093, PMCID: PMC3063071, DOI: 10.1016/s0091-679x(08)94011-5.Peer-Reviewed Original ResearchConceptsC-terminal tailPolycystin-1Membrane-bound proteinsSubcellular localizationNuclear localizationPlasma membranePC1 proteinCytoplasmic cleavagePhysiological functionsSurface localizationFunctional roleSurface proteinsCell surfaceSurface populationsSpecific cleavageProteinImmunofluorescence protocolSoluble fragmentProtein expressionCell populationsImportant poolAutosomal dominant polycystic kidney diseasePolycystic kidney diseaseCleavageComplete understandingMembrane proteins follow multiple pathways to the basolateral cell surface in polarized epithelial cells
Farr GA, Hull M, Mellman I, Caplan MJ. Membrane proteins follow multiple pathways to the basolateral cell surface in polarized epithelial cells. Journal Of Cell Biology 2009, 186: 269-282. PMID: 19620635, PMCID: PMC2717640, DOI: 10.1083/jcb.200901021.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBiological TransportCadherinsCell LineCell MembraneCell PolarityDogsEndosomesEpithelial CellsExocytosisGolgi ApparatusHumansMembrane GlycoproteinsMembrane ProteinsModels, MolecularProtein Structure, SecondaryProtein TransportReceptors, TransferrinRecombinant Fusion ProteinsSodium-Potassium-Exchanging ATPaseStaining and LabelingTrans-Golgi NetworkViral Envelope ProteinsConceptsBasolateral proteinsMembrane proteinsSurface deliveryK-ATPaseVesicular stomatitis virus G proteinPolarized epithelial cellsBasolateral membrane proteinsEpithelial cellsVirus G proteinBasolateral cell surfaceBasolateral deliveryTransport intermediatesGolgi networkSmall GTPasesPlasma membraneG proteinsCell surfaceProteinMultiple pathwaysBasolateral membraneGolgiPathwayCellsMembraneGTPases
2006
An Extracellular Loop of the Human Non-Gastric H,K-ATPase a-subunit is Involved in Apical Plasma Membrane Polarization
Lerner M, Lemke D, Bertram H, Schillers H, Oberleithner H, Caplan MJ, Reinhardt J. An Extracellular Loop of the Human Non-Gastric H,K-ATPase a-subunit is Involved in Apical Plasma Membrane Polarization. Cellular Physiology And Biochemistry 2006, 18: 75-84. PMID: 16914892, DOI: 10.1159/000095169.Peer-Reviewed Original ResearchConceptsP-type ATPasesSorting motifApical deliveryExtracellular loopK-ATPaseSpecific sorting signalsPlasma membrane polarizationShort extracellular loopApical plasma membraneMadin-Darby canine kidney cellsSingle point mutationCanine kidney cellsSorting signalsGene familyPlasma membraneFlanking regionsEpithelial apical membraneK-ATPasesPhysiological roleApical membraneCellular distributionPoint mutationsIon pumpsATP1AL1Corresponding region
2004
Sorting of H,K‐ATPase β‐Subunit in MDCK and LLC‐PK1 Cells is Independent of μ1B Adaptin Expression
Duffield A, Fölsch H, Mellman I, Caplan MJ. Sorting of H,K‐ATPase β‐Subunit in MDCK and LLC‐PK1 Cells is Independent of μ1B Adaptin Expression. Traffic 2004, 5: 449-461. PMID: 15117319, DOI: 10.1111/j.1398-9219.2004.00192.x.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Protein Complex mu SubunitsAdaptor Proteins, Vesicular TransportAmino Acid MotifsAnimalsCell LineCytoplasmDogsEpithelial CellsGlutathione TransferaseH(+)-K(+)-Exchanging ATPaseLLC-PK1 CellsMembrane ProteinsProtein SubunitsProtein TransportReceptors, LDLReceptors, TransferrinRecombinant Fusion ProteinsSwineTransfectionTyrosineConceptsLow-density lipoproteinTransferrin receptorBasolateral localizationTyrosine-based motifMDCK cellsB expressionLLC-PK1 cellsEpithelial cellsLipoproteinMadin-Darby canine kidney cellsCertain epithelial cellsReceptorsKidney cellsCanine kidney cellsK-ATPase beta subunitCellsDifferential expressionK-ATPaseBasolateral expressionExpressionApical membrane
2003
Polycystin-1 Distribution Is Modulated by Polycystin-2 Expression in Mammalian Cells*
Grimm DH, Cai Y, Chauvet V, Rajendran V, Zeltner R, Geng L, Avner ED, Sweeney W, Somlo S, Caplan MJ. Polycystin-1 Distribution Is Modulated by Polycystin-2 Expression in Mammalian Cells*. Journal Of Biological Chemistry 2003, 278: 36786-36793. PMID: 12840011, DOI: 10.1074/jbc.m306536200.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBlotting, WesternCell LineCell MembraneCells, CulturedCOS CellsDNA, ComplementaryEndoplasmic ReticulumGene Expression RegulationMembrane ProteinsMiceMice, TransgenicMicroscopy, FluorescenceModels, BiologicalMutationPrecipitin TestsProtein BindingProtein BiosynthesisProteinsRecombinant Fusion ProteinsRNA, MessengerTransfectionTRPP Cation ChannelsConceptsPolycystin-1Polycystin-2Mammalian cellsLevel of expressionPolycystin-2 expressionEndoplasmic reticulumCell surfaceCOS-7 cellsNull cell lineRelative expression levelsSubcellular localizationFusion proteinGradient of expressionExpression levelsProteinCell linesPolycystinsAutosomal dominant polycystic kidney diseaseDominant polycystic kidney diseaseDivergent patternsExpressionPolycystic kidney diseaseReticulumCellsLocalization
2002
Aquaporin-2: COOH terminus is necessary but not sufficient for routing to the apical membrane
Deen PM, Van Balkom BW, Savelkoul PJ, Kamsteeg EJ, Van Raak M, Jennings ML, Muth TR, Rajendran V, Caplan MJ. Aquaporin-2: COOH terminus is necessary but not sufficient for routing to the apical membrane. American Journal Of Physiology. Renal Physiology 2002, 282: f330-f340. PMID: 11788448, DOI: 10.1152/ajprenal.0168.2001.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAquaporin 1Aquaporin 2Aquaporin 6AquaporinsArginine VasopressinBlood Group AntigensCell CompartmentationCell FractionationCell LineCell MembraneCell Membrane PermeabilityColforsinEndocytosisGene ExpressionHumansKidneyProtein Structure, TertiaryProtein TransportRatsRecombinant Fusion ProteinsVasoconstrictor AgentsWaterConceptsIntracellular vesiclesApical membraneAquaporin-2Wild‐type aquaporin‐2Mammalian water homeostasisMadin-Darby canine kidney cellsCanine kidney cellsAQP2 accumulationPrimary sequenceSame proteinOsmotic water permeabilityApical expressionForskolin treatmentAquaporin-1 (AQP1) water channelWater homeostasisKidney cellsBasolateral membraneVesiclesPlacental alkaline phosphataseMembraneWater channelsDuct cellsAQP1TailCells
2000
The C-terminal Tail of the Metabotropic Glutamate Receptor Subtype 7 Is Necessary but Not Sufficient for Cell Surface Delivery and Polarized Targeting in Neurons and Epithelia*
McCarthy J, Lim S, Elkind N, Trimmer J, Duvoisin R, Rodriguez-Boulan E, Caplan M. The C-terminal Tail of the Metabotropic Glutamate Receptor Subtype 7 Is Necessary but Not Sufficient for Cell Surface Delivery and Polarized Targeting in Neurons and Epithelia*. Journal Of Biological Chemistry 2000, 276: 9133-9140. PMID: 11106656, DOI: 10.1074/jbc.m008290200.Peer-Reviewed Original ResearchConceptsPolarized targetingCytoplasmic tailIntracellular compartmentsMadin-Darby canine kidney epithelial cellsVesicular stomatitis virus G proteinComplex neuronal functionMDCK cellsCell surface deliveryC-terminal tailCanine kidney epithelial cellsCytoplasmic tail domainVirus G proteinKidney epithelial cellsEntire cell surfaceCell surface expressionCytoplasmic domainTransmembrane portionSurface deliveryTail domainSynaptic microdomainsHuman placental alkaline phosphataseNeuronal polarizationMolecular signalsG proteinsCultured hippocampal neuronsA Transmembrane Segment Determines the Steady-State Localization of an Ion-Transporting Adenosine Triphosphatase
Dunbar L, Aronson P, Caplan M. A Transmembrane Segment Determines the Steady-State Localization of an Ion-Transporting Adenosine Triphosphatase. Journal Of Cell Biology 2000, 148: 769-778. PMID: 10684257, PMCID: PMC2169368, DOI: 10.1083/jcb.148.4.769.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBiological TransportCationsCell LineCell MembraneCell PolarityGlycosphingolipidsGlycosylphosphatidylinositolsH(+)-K(+)-Exchanging ATPaseHydrogen-Ion ConcentrationMembrane ProteinsMolecular Sequence DataOuabainParietal Cells, GastricProtein Sorting SignalsRecombinant Fusion ProteinsSequence AlignmentSequence DeletionSodium-Potassium-Exchanging ATPaseSolubilityTransfectionConceptsK-ATPase alpha subunitAlpha subunitTransmembrane domainPolytopic membrane transport proteinK-ATPaseApical distributionGlycosphingolipid-rich membrane domainsDetergent-insoluble complexesMembrane transport proteinsApical membrane proteinsApical plasma membraneK-ATPase alphaFourth transmembrane domainLocalization signalChimeric pumpsFourth transmembraneTransmembrane segmentsK-ATPase sequencesMembrane compartmentsMembrane domainsMembrane proteinsSequence domainsPlasma membraneGastric parietal cellsTransport proteinsResidues of the Fourth Transmembrane Segments of the Na,K-ATPase and the Gastric H,K-ATPase Contribute to Cation Selectivity*
Mense M, Dunbar L, Blostein R, Caplan M. Residues of the Fourth Transmembrane Segments of the Na,K-ATPase and the Gastric H,K-ATPase Contribute to Cation Selectivity*. Journal Of Biological Chemistry 2000, 275: 1749-1756. PMID: 10636871, DOI: 10.1074/jbc.275.3.1749.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphatasesAmino Acid SequenceAnimalsCationsElectrophysiologyH(+)-K(+)-Exchanging ATPaseHydrogen-Ion ConcentrationInhibitory Concentration 50KineticsMolecular Sequence DataMutationOuabainPotassiumRecombinant Fusion ProteinsSequence Homology, Amino AcidSodiumSodium-Potassium-Exchanging ATPaseStomachVanadatesXenopus laevisConceptsFourth transmembrane segmentTransmembrane segmentsATPase assaysK-ATPaseHelical wheel analysisTwo-electrode voltage-clamp experimentsCation selectivityProtein chimerasXenopus laevis oocytesVanadate sensitivityWild-type NaGastric HK-ATPasesXenopus oocytesLaevis oocytesATPase activityAbsence of sodiumResiduesTM4K counterpartsControl constructsOocytesConformational equilibriumAssaysImportant role
1999
Cation Selectivity of Gastric H,K-ATPase and Na,K-ATPase Chimeras*
Blostein R, Dunbar L, Mense M, Scanzano R, Wilczynska A, Caplan M. Cation Selectivity of Gastric H,K-ATPase and Na,K-ATPase Chimeras*. Journal Of Biological Chemistry 1999, 274: 18374-18381. PMID: 10373442, DOI: 10.1074/jbc.274.26.18374.Peer-Reviewed Original Research
1998
Identification of Sorting Determinants in the C-terminal Cytoplasmic Tails of the γ-Aminobutyric Acid Transporters GAT-2 and GAT-3*
Muth T, Ahn J, Caplan M. Identification of Sorting Determinants in the C-terminal Cytoplasmic Tails of the γ-Aminobutyric Acid Transporters GAT-2 and GAT-3*. Journal Of Biological Chemistry 1998, 273: 25616-25627. PMID: 9748227, DOI: 10.1074/jbc.273.40.25616.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBiological TransportCarrier ProteinsCells, CulturedCloning, MolecularDogsFluorescent Antibody TechniqueGABA Plasma Membrane Transport ProteinsGamma-Aminobutyric AcidGenes, mycIon ChannelsKidneyMembrane ProteinsMembrane Transport ProteinsMicroscopy, ConfocalMolecular Sequence DataRecombinant Fusion ProteinsSequence DeletionConceptsC-terminal cytoplasmic tailIon transport proteinsMadin-Darby canine kidney cellsCytoplasmic tailMembrane proteinsC-terminusCanine kidney cellsTransporter familyAmino acidsBasolateral distributionTransport proteinsGAT-2Polytopic membrane proteinsProtein-based signalsProtein-protein interactionsTerminal cytoplasmic tailC-terminal sequencesKidney cellsClass of polypeptidesEpithelial cellsApical sortingPDZ domainChimeric transportersPolarized sortingSorting determinantA basolateral sorting signal is encoded in the α-subunit of Na-K-ATPase
Muth TR, Gottardi CJ, Roush DL, Caplan MJ. A basolateral sorting signal is encoded in the α-subunit of Na-K-ATPase. American Journal Of Physiology 1998, 274: c688-c696. PMID: 9530100, DOI: 10.1152/ajpcell.1998.274.3.c688.Peer-Reviewed Original ResearchConceptsLLC-PK1 cellsK-ATPaseAmino acidsPlasma membrane distributionIntracellular vesicular compartmentsBasolateral surfaceAmino acid residuesNa-K-ATPaseBasolateral signalSurface expressionK-ATPase sequencesProtein domainsPlasma membraneVesicular compartmentsGastric parietal cellsTranscriptional upregulationΑ-subunitLLC-PK1 cell lineMembrane distributionAcid residuesSecretagogue stimulationIon pumpsApical surfaceChimerasCell lines
1997
Sorting of Ion Pumps in Polarized Epithelial Cells.a
DUNBAR L, ROUSH D, COURTOIS‐COUTRY N, MUTH T, GOTTARDI CJ, RAJENDRAN V, GEIBEL J, KASHGARIAN M, CAPLAN M. Sorting of Ion Pumps in Polarized Epithelial Cells.a. Annals Of The New York Academy Of Sciences 1997, 834: 514-523. PMID: 9405853, DOI: 10.1111/j.1749-6632.1997.tb52309.x.Peer-Reviewed Original ResearchAmino Acid SequenceCell MembraneCell PolarityConserved SequenceEpithelial CellsH(+)-K(+)-Exchanging ATPaseHumansMacromolecular SubstancesModels, MolecularMolecular Sequence DataProtein Structure, SecondaryReceptors, TransferrinRecombinant Fusion ProteinsSequence AlignmentSequence Homology, Amino AcidSodium-Potassium-Exchanging ATPaseSorting of Two Polytopic Proteins, the γ-Aminobutyric Acid and Betaine Transporters, in Polarized Epithelial Cells*
Perego C, Bulbarelli A, Longhi R, Caimi M, Villa A, Caplan M, Pietrini G. Sorting of Two Polytopic Proteins, the γ-Aminobutyric Acid and Betaine Transporters, in Polarized Epithelial Cells*. Journal Of Biological Chemistry 1997, 272: 6584-6592. PMID: 9045687, DOI: 10.1074/jbc.272.10.6584.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBiological TransportCarrier ProteinsCell CompartmentationCell LineCell MembraneCell PolarityCytosolDogsEndoplasmic ReticulumFluorescent Antibody Technique, IndirectGABA Plasma Membrane Transport ProteinsHumansMembrane ProteinsMembrane Transport ProteinsMolecular Sequence DataOrganic Anion TransportersReceptors, Nerve Growth FactorRecombinant Fusion ProteinsRecombinant ProteinsStructure-Activity RelationshipTransfectionConceptsCytosolic tailMadin-Darby canine kidney cellsCanine kidney cellsBetaine transporterEndoplasmic reticulumPolarized epithelial cellsTerminal cytosolic domainHuman nerve growth factor receptorKidney cellsPolytopic proteinsApical proteinsCytosolic domainChimeric transportersGrowth factor receptorApical localizationBasolateral distributionBasic residuesBasolateral localizationTransporter isoformsGAT-1Nerve growth factor receptorBgtBasolateral surfaceFactor receptorProteinCloned Catecholamine Transporters Expressed in Polarized Epithelial Cells: Sorting, Drug Sensitivity, and Ion-Coupling Stoichiometry
Gu H, Caplan MJ, Rudnick G. Cloned Catecholamine Transporters Expressed in Polarized Epithelial Cells: Sorting, Drug Sensitivity, and Ion-Coupling Stoichiometry. Advances In Pharmacology 1997, 42: 175-179. PMID: 9327872, DOI: 10.1016/s1054-3589(08)60721-8.Peer-Reviewed Original ResearchMeSH KeywordsAmphetamineAnimalsBiological TransportCarrier ProteinsCell LineCell PolarityCloning, MolecularDopamineDopamine Plasma Membrane Transport ProteinsEpithelial CellsGABA Plasma Membrane Transport ProteinsGamma-Aminobutyric AcidHumansKineticsMembrane GlycoproteinsMembrane ProteinsMembrane Transport ProteinsNerve Tissue ProteinsNorepinephrineNorepinephrine Plasma Membrane Transport ProteinsOrganic Anion TransportersRatsRecombinant Fusion ProteinsRecombinant ProteinsSerotoninSerotonin Plasma Membrane Transport ProteinsSubstrate SpecificitySwineSymportersTransfectionConceptsCell linesPolarized epithelial cellsHeterologous expression systemBiogenic amine transportersCanine kidney cellsSame cellular backgroundKidney cell lineLLC-PK1 cellsExpression systemBiogenic amine releaseCellular backgroundIntact cellsPig kidney cell lineSame cDNAInhibitor sensitivityAmine transportersCatecholamine transportersCoupling stoichiometryTransportersKidney cellsDrug sensitivityPharmacological propertiesEpithelial cellsMolecule of substrateAmine release
1994
Sorting of the Gastric H,K‐ATPase in Endocrine and Epithelial Cellsa
ROUSH D, GOTTARDI C, CAPLAN M. Sorting of the Gastric H,K‐ATPase in Endocrine and Epithelial Cellsa. Annals Of The New York Academy Of Sciences 1994, 733: 212-222. PMID: 7978870, DOI: 10.1111/j.1749-6632.1994.tb17271.x.Peer-Reviewed Original Research
1993
Molecular requirements for the cell-surface expression of multisubunit ion-transporting ATPases. Identification of protein domains that participate in Na,K-ATPase and H,K-ATPase subunit assembly
Gottardi CJ, Caplan MJ. Molecular requirements for the cell-surface expression of multisubunit ion-transporting ATPases. Identification of protein domains that participate in Na,K-ATPase and H,K-ATPase subunit assembly. Journal Of Biological Chemistry 1993, 268: 14342-14347. PMID: 8390991, DOI: 10.1016/s0021-9258(19)85246-8.Peer-Reviewed Original ResearchConceptsK-ATPase alpha subunitK-ATPase beta subunitAlpha subunitBeta subunitCell surface expressionTerminal halfK-ATPaseCell surface deliveryEfficient cell surface expressionK-ATPase alphaNH2-terminal halfCOS-1 cellsIon-transporting ATPasesProtein domainsK-ATPase enzymeSubunit assemblySurface deliveryIntracellular vesiclesSubunit chimerasIndividual subunitsActive enzymeMolecular requirementsSubunitsCell surfaceBeta proteinFunctional properties of an H,K-ATPase/Na,K-ATPase chimera
Blostein R, Zhang R, Gottardi C, Caplan M. Functional properties of an H,K-ATPase/Na,K-ATPase chimera. Journal Of Biological Chemistry 1993, 268: 10654-10658. PMID: 8387526, DOI: 10.1016/s0021-9258(18)82247-5.Peer-Reviewed Original Research