1999
Immunolocalization of the electrogenic Na+- HCO 3 − cotransporter in mammalian and amphibian kidney
Schmitt B, Biemesderfer D, Romero M, Boulpaep E, Boron W. Immunolocalization of the electrogenic Na+- HCO 3 − cotransporter in mammalian and amphibian kidney. American Journal Of Physiology 1999, 276: f27-f38. PMID: 9887077, DOI: 10.1152/ajprenal.1999.276.1.f27.Peer-Reviewed Original ResearchConceptsRat kidney NBCProximal tubulesDistal tubulesIndirect immunofluorescence microscopyEarly distal tubuleLate distal tubuleControl fusion proteinHCO-3 reabsorptionHCO-3 cotransporterRenal proximal tubulesBasolateral labelingImmunofluorescence microscopyRenal microsomesGuinea pigsRat kidneyHEK-293 cellsKidneyPreabsorption experimentsBasolateral stainingRabbit kidneyControl oocytesFusion proteinRatsProtein levelsNBC protein
1998
Transcellular Chloride Pathways in Ambystoma Proximal Tubule
Abdulnour-Nakhoul S, Boulpaep E. Transcellular Chloride Pathways in Ambystoma Proximal Tubule. The Journal Of Membrane Biology 1998, 166: 15-35. PMID: 9784583, DOI: 10.1007/s002329900444.Peer-Reviewed Original ResearchMeSH KeywordsAmbystomaAnimalsCell MembraneChloride ChannelsChloridesIon TransportMembrane PotentialsSodiumConceptsProximal tubulesChloride channel blockerContribution of transportersAmbystoma proximal tubuleTransepithelial potential differenceDisulfonic stilbeneCl-HCO3 exchangeFree RingerLines of evidenceTubulesBasolateral cell membraneLumenNa-independent ClMembrane potentialBasolateral membraneApical membrane potentialAiClBlockersProperties of an Inwardly Rectifying ATP-sensitive K+ Channel in the Basolateral Membrane of Renal Proximal Tubule
Mauerer U, Boulpaep E, Segal A. Properties of an Inwardly Rectifying ATP-sensitive K+ Channel in the Basolateral Membrane of Renal Proximal Tubule. The Journal Of General Physiology 1998, 111: 139-160. PMID: 9417141, PMCID: PMC1887768, DOI: 10.1085/jgp.111.1.139.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAmbystomaAnimalsBariumBiological TransportCationsCells, CulturedCytidine TriphosphateDiazoxideDiureticsElectric ConductivityGlyburideGuanosine TriphosphateHypoglycemic AgentsInosine TriphosphateIon Channel GatingKidney Tubules, ProximalKineticsMicrovilliPatch-Clamp TechniquesPotassium ChannelsSodium Chloride Symporter InhibitorsSodium-Potassium-Exchanging ATPaseThalliumThymine NucleotidesUridine TriphosphateConceptsProximal tubule cellsProximal tubulesTubule cellsBasolateral membraneChannel opener diazoxideChannel activityPump-leak couplingRenal proximal tubulesPivotal physiological rolesOpener diazoxideMillimolar dosesMM ATPHigh dosesPotassium conductanceCell membrane potentialInternal Mg2Cytosolic additionATPase pumpRegulation of an Inwardly Rectifying ATP-sensitive K+ Channel in the Basolateral Membrane of Renal Proximal Tubule
Mauerer U, Boulpaep E, Segal A. Regulation of an Inwardly Rectifying ATP-sensitive K+ Channel in the Basolateral Membrane of Renal Proximal Tubule. The Journal Of General Physiology 1998, 111: 161-180. PMID: 9417142, PMCID: PMC1887764, DOI: 10.1085/jgp.111.1.161.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateAmbystomaAnimalsBiological TransportCalciumCell MembraneColforsinCyclic AMP-Dependent Protein KinasesEnzyme ActivationEpithelial CellsHydrogen-Ion ConcentrationIon Channel GatingKidney Tubules, ProximalPatch-Clamp TechniquesPhosphorylationPotassium ChannelsProtein Kinase CSodium-Potassium-Exchanging ATPaseConceptsBasolateral membraneProtein kinase AActin cytoskeletonATPase pumpOuter membraneProtein kinaseKinase ACellular metabolismKATP channelsSecond messengerStimulation of transportTransport activityPhysiological importanceMembrane stretchPhorbol esterChannel activityMembrane patchesRegulationIntracellularO patchesFunctional couplingHypotonic swellingCell-attached patchesCell depolarizationRenal proximal tubules
1997
Expression cloning and characterization of a renal electrogenic Na+ /HCO3− cotransporter
Romero M, Hediger M, Boulpaep E, Boron W. Expression cloning and characterization of a renal electrogenic Na+ /HCO3− cotransporter. Nature 1997, 387: 409-413. PMID: 9163427, DOI: 10.1038/387409a0.Peer-Reviewed Original ResearchConceptsPotential membrane-spanning domainsMembrane-spanning domainsElectrogenic sodium bicarbonate cotransporterBinding of inhibitorsSodium bicarbonate cotransporterAnimal cellsBicarbonate transportersElectrogenic transportersSuccessful cloningExpression cloningComplementary DNAPrincipal regulatorAmino acidsBicarbonate cotransporterProtein purificationFunctional familiesXenopus oocytesMolecular informationTransportersCloningReproductive systemSalamander Ambystoma tigrinumProteinAmbystoma tigrinumIntracellular pHThe Renal Electrogenic Na+:HCO3− Cotransporter
Boron W, Hediger M, Boulpaep E, Romero M. The Renal Electrogenic Na+:HCO3− Cotransporter. Journal Of Experimental Biology 1997, 200: 263-268. PMID: 9050234, DOI: 10.1242/jeb.200.2.263.Peer-Reviewed Original ResearchMeSH KeywordsAmbystomaAnimalsBicarbonatesCarrier ProteinsCloning, MolecularDNA, ComplementaryHydrogen-Ion ConcentrationKidney Tubules, ProximalMembrane PotentialsMicroinjectionsOocytesRabbitsRecombinant Fusion ProteinsRNA, MessengerSodiumSodium-Bicarbonate SymportersStructure-Activity RelationshipXenopus laevisConceptsRenal proximal tubules
1996
A novel preparation of dissociated renal proximal tubule cells that maintain epithelial polarity in suspension
Segal A, Boulpaep E, Maunsbach A. A novel preparation of dissociated renal proximal tubule cells that maintain epithelial polarity in suspension. American Journal Of Physiology 1996, 270: c1843-c1863. PMID: 8764170, DOI: 10.1152/ajpcell.1996.270.6.c1843.Peer-Reviewed Original ResearchConceptsEpithelial polarityFunctional polaritySingle cellsMembrane trafficking pathwaysCell surface polarityBasolateral membrane domainsIon channel proteinsBasolateral membraneApical brush borderCell polarityTrafficking pathwaysActin cytoskeletonMembrane domainsProximal tubule cellsMost epithelial cellsChannel proteinsZO-1 proteinTubule cellsJunctional complexesTight junctional complexesPolarized structureSingle cell modelEpithelial cellsRenal proximal tubule cellsZO-1
1990
Bicarbonate transport mechanisms in the Ambystoma kidney proximal tubule: transepithelial potential measurements.
Bock J, Boulpaep E. Bicarbonate transport mechanisms in the Ambystoma kidney proximal tubule: transepithelial potential measurements. The Yale Journal Of Biology And Medicine 1990, 63: 529-47. PMID: 2092412, PMCID: PMC2589409.Peer-Reviewed Original Research
1988
Cell membrane water permeabilities and streaming currents in Ambystoma proximal tubule
Tripathi S, Boulpaep E. Cell membrane water permeabilities and streaming currents in Ambystoma proximal tubule. American Journal Of Physiology 1988, 255: f188-f203. PMID: 3394810, DOI: 10.1152/ajprenal.1988.255.1.f188.Peer-Reviewed Original Research
1987
Ultrastructural changes in isolated perfused proximal tubules during osmotic water flow
Maunsbach A, Tripathi S, Boulpaep E. Ultrastructural changes in isolated perfused proximal tubules during osmotic water flow. American Journal Of Physiology 1987, 253: f1091-f1104. PMID: 3425719, DOI: 10.1152/ajprenal.1987.253.6.f1091.Peer-Reviewed Original ResearchIsolated perfused Ambystoma proximal tubule: hydrodynamics modulates ultrastructure
Tripathi S, Boulpaep E, Maunsbach A. Isolated perfused Ambystoma proximal tubule: hydrodynamics modulates ultrastructure. American Journal Of Physiology 1987, 252: f1129-f1147. PMID: 3591955, DOI: 10.1152/ajprenal.1987.252.6.f1129.Peer-Reviewed Original ResearchElectrochemical analysis of renal Na+-glucose cotransport in salamander proximal tubules
Morgunov N, Boulpaep E. Electrochemical analysis of renal Na+-glucose cotransport in salamander proximal tubules. American Journal Of Physiology 1987, 252: f154-f169. PMID: 3812699, DOI: 10.1152/ajprenal.1987.252.1.f154.Peer-Reviewed Original ResearchConceptsLuminal glucoseProximal tubulesFavorable chemical gradientFavorable electrical gradientSodium concentrationSodium-glucose cotransporterIntracellular sodium activityElectrogenic responseSodium activityMM D-glucoseMembrane potentialSalamander proximal tubuleLuminal perfusateOmega X cm2Glucose cotransportGlucose concentrationLuminal membranePhysiological rangeX cm2Luminal membrane potentialGlucoseD-glucoseTubulesLuminal membrane resistancePerfusate
1984
Quantitative ultrastructure and functional correlates in proximal tubule of Ambystoma and Necturus
Maunsbach A, Boulpaep E. Quantitative ultrastructure and functional correlates in proximal tubule of Ambystoma and Necturus. American Journal Of Physiology 1984, 246: f710-f724. PMID: 6720973, DOI: 10.1152/ajprenal.1984.246.5.f710.Peer-Reviewed Original ResearchMeSH KeywordsAmbystomaAnimalsCell MembraneEpitheliumFemaleKidney Tubules, ProximalMitochondriaNecturusConceptsBasal cell membraneCell membraneStructure-function correlationsIntercellular spacesBasal cell surfaceLateral cell membranesBasal extracellular labyrinthMorphometric comparative analysisVolume of cellsInterspecies variabilityCell surfaceAmbystomaQuantitative ultrastructureElaborate organizationBasolateral membraneLateral intercellular spacesSpeciesSalamander Ambystoma tigrinumExtracellular channelsMembraneUltrastructureAmbystoma tigrinumFunctional propertiesProximal tubules
1983
Rheogenic transport in the renal proximal tubule.
Sackin H, Boulpaep E. Rheogenic transport in the renal proximal tubule. The Journal Of General Physiology 1983, 82: 819-851. PMID: 6319539, PMCID: PMC2228722, DOI: 10.1085/jgp.82.6.819.Peer-Reviewed Original Research
1981
Isolated perfused salamander proximal tubule: methods, electrophysiology, and transport
Sackin H, Boulpaep E. Isolated perfused salamander proximal tubule: methods, electrophysiology, and transport. American Journal Of Physiology 1981, 241: f39-f52. PMID: 7246773, DOI: 10.1152/ajprenal.1981.241.1.f39.Peer-Reviewed Original ResearchThe rheogenic nature of sodium transport in leaky epithelia studied by equivalent circuit analysis.
Sackin H, Boulpaep E. The rheogenic nature of sodium transport in leaky epithelia studied by equivalent circuit analysis. Progress In Clinical And Biological Research 1981, 73: 57-66. PMID: 6275400.Peer-Reviewed Original ResearchHydrogen and bicarbonate transport by salamander proximal tubule cells.
Boron W, Boulpaep E. Hydrogen and bicarbonate transport by salamander proximal tubule cells. Kroc Foundation Series 1981, 15: 253-67. PMID: 6951947.Peer-Reviewed Original Research