2016
Romk1 Knockout Mice Do Not Produce Bartter Phenotype but Exhibit Impaired K Excretion*
Dong K, Yan Q, Lu M, Wan L, Hu H, Guo J, Boulpaep E, Wang W, Giebisch G, Hebert SC, Wang T. Romk1 Knockout Mice Do Not Produce Bartter Phenotype but Exhibit Impaired K Excretion*. Journal Of Biological Chemistry 2016, 291: 5259-5269. PMID: 26728465, PMCID: PMC4777858, DOI: 10.1074/jbc.m115.707877.Peer-Reviewed Original Research
2003
Calcium-dependent, swelling-activated K+ conductance in human neuroblastoma cells
Basavappa S, Mangel A, Boulpaep E. Calcium-dependent, swelling-activated K+ conductance in human neuroblastoma cells. Biochemical And Biophysical Research Communications 2003, 308: 759-763. PMID: 12927783, DOI: 10.1016/s0006-291x(03)01481-5.Peer-Reviewed Original ResearchConceptsHuman neuroblastoma cell line CHP-100CHP-100Regulatory volume decreaseCell-attached patch-clamp studiesFree extracellular solutionHuman neuroblastoma cellsSwelling-activated ClPatch-clamp studiesFura-2Extracellular osmolarityFree extracellularNeuroblastoma cellsMOsm/Hypoosmotic solutionCell swellingExtracellular solutionCl- channelsHypoosmotic stressPresent studyMost mammalian cellsEGTACellsVolume decreaseEffluxPrevious studiesActive K+ secretion through multiple KCa-type channels and regulation by IKCa channels in rat proximal colon
Joiner WJ, Basavappa S, Vidyasagar S, Nehrke K, Krishnan S, Binder HJ, Boulpaep EL, Rajendran VM. Active K+ secretion through multiple KCa-type channels and regulation by IKCa channels in rat proximal colon. AJP Gastrointestinal And Liver Physiology 2003, 285: g185-g196. PMID: 12606302, DOI: 10.1152/ajpgi.00337.2002.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsApaminCarbacholChloridesCHO CellsCholinergic AgonistsClotrimazoleColonCricetinaeGene ExpressionGrowth InhibitorsIntermediate-Conductance Calcium-Activated Potassium ChannelsMaleMembrane PotentialsMolecular Sequence DataPatch-Clamp TechniquesPeptidesPotassiumPotassium ChannelsPotassium Channels, Calcium-ActivatedPotassium, DietaryRatsRats, Sprague-DawleyRubidium RadioisotopesConceptsChannel inhibitors clotrimazoleRat proximal colonProximal colonSK channel inhibitorsAddition of thapsigarginExpression of Ca2Muscarinic receptorsCholinergic agentsMuscarinic agonistsEpithelial stripsIKCa channelsMucosal additionSerosal surfaceColonic epitheliumIK channelsIntracellular Ca2Channel inhibitorsRSK4 mRNAColonWestern blottingIK proteinSecretionColonic cryptsPrecise mechanismConfocal immunofluorescence
1995
Primary structure and functional expression of a cGMP-gated potassium channel.
Yao X, Segal AS, Welling P, Zhang X, McNicholas CM, Engel D, Boulpaep EL, Desir GV. Primary structure and functional expression of a cGMP-gated potassium channel. Proceedings Of The National Academy Of Sciences Of The United States Of America 1995, 92: 11711-11715. PMID: 8524834, PMCID: PMC40472, DOI: 10.1073/pnas.92.25.11711.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBase SequenceCloning, MolecularCyclic GMPElectric ConductivityGene LibraryIon Channel GatingMolecular Sequence DataOocytesPhylogenyPotassiumPotassium ChannelsProtein BiosynthesisProtein ConformationRabbitsRNA, MessengerSequence Homology, Amino AcidTissue DistributionXenopusConceptsDeduced amino acid sequenceChannel protein phosphorylationCysteine-rich regionAmino acid sequenceNorthern blot analysisPotassium channel activityProtein phosphorylationAcid sequenceGene expressionPrimary structureFunctional expressionK channelsIon channelsChannel activityBlot analysisCyclic nucleotidesShaker K channelsPotassium channelsEffects of substancesKCN1Intracellular cGMPCGMPNitric oxideExpressionImportant role
1988
Glucocorticoids have a different action than aldosterone on target tissue
Halevy J, Boulpaep E, Budinger M, Binder H, Hayslett J. Glucocorticoids have a different action than aldosterone on target tissue. American Journal Of Physiology 1988, 254: f153-f158. PMID: 3337244, DOI: 10.1152/ajprenal.1988.254.1.f153.Peer-Reviewed Original ResearchConceptsRU 28362Same doseInhibitory actionDexamethasone-treated animalsBody wt-1Effects of glucocorticoidsEffect of dexamethasoneReceptor-independent actionsRat distal colonSodium channel blockersMarked inhibitory actionEquivalent short-circuit currentBasolateral potential differenceAldosterone receptorsEpithelial changesDistal colonChannel blockersAldosteroneSynthetic glucocorticoidDay 1WT-1Large intestineGlucocorticoidsEpithelial resistanceMarked inhibition
1986
Regulation of single potassium ion channels from apical membrane of rabbit collecting tubule
Hunter M, Lopes A, Boulpaep E, Giebisch G. Regulation of single potassium ion channels from apical membrane of rabbit collecting tubule. American Journal Of Physiology 1986, 251: f725-f733. PMID: 2429562, DOI: 10.1152/ajprenal.1986.251.4.f725.Peer-Reviewed Original ResearchConceptsCortical collecting tubuleCollecting tubuleRabbit cortical collecting tubuleBath calcium concentrationOpen probabilityPatch-clamp techniqueOne-half maximalApical membranePotassium secretionChannel open timeIntracellular calciumPotassium ion channelsChannel open probabilityCalcium concentrationMM calciumChannel activityTubulesIon channelsBath solutionSecretionOpen timeTransmembrane potentialCalciumFunction of calciumApparent Ki
1984
Role of aldosterone in the mechanism of potassium adaptation in the initial collecting tubule
Hirsch D, Kashgarian M, Boulpaep E, Hayslett J. Role of aldosterone in the mechanism of potassium adaptation in the initial collecting tubule. Kidney International 1984, 26: 798-807. PMID: 6099857, DOI: 10.1038/ki.1984.221.Peer-Reviewed Original ResearchConceptsInitial collecting tubuleCollecting tubuleDistal convolutionAldosterone levelsPotassium adaptationChronic potassium loadingMineralocorticoid-sensitive tissuesRole of aldosteronePlasma aldosterone levelsAction of aldosteroneIntact adrenal glandsPotassium loadingPhysiological plasma levelsChronic hyperaldosteronismTransepithelial potential differenceChronic administrationEpithelial changesAdrenal glandPlasma levelsDietary potassium loadingBasal valuesAldosteroneTubule cellsNephron segmentsTarget tissuesSingle channel recordings of calcium-activated potassium channels in the apical membrane of rabbit cortical collecting tubules.
Hunter M, Lopes A, Boulpaep E, Giebisch G. Single channel recordings of calcium-activated potassium channels in the apical membrane of rabbit cortical collecting tubules. Proceedings Of The National Academy Of Sciences Of The United States Of America 1984, 81: 4237-4239. PMID: 6330754, PMCID: PMC345404, DOI: 10.1073/pnas.81.13.4237.Peer-Reviewed Original ResearchConceptsPotassium channelsRabbit cortical collecting tubuleCalcium concentrationCalcium-activated potassium channelsDose-dependent fashionCortical collecting tubulePatch-clamp techniqueCollecting tubuleSingle potassium channelsApical membraneOpen channel probabilitySingle-channel recordingsSlope conductanceChannel activityTubulesChannel recordingsRecordings
1983
Chloride transport across the basolateral cell membrane of theNecturus proximal tubule: Dependence on bicarbonate and sodium
Guggino W, London R, Boulpaep E, Giebisch G. Chloride transport across the basolateral cell membrane of theNecturus proximal tubule: Dependence on bicarbonate and sodium. The Journal Of Membrane Biology 1983, 71: 227-240. PMID: 6302263, DOI: 10.1007/bf01875464.Peer-Reviewed Original ResearchConceptsBasolateral cell membraneProximal tubule cellsBasolateral solutionNH4Cl exposurePH-sensitive microelectrodesProximal tubulesTubule cellsPerfusion solutionCell membraneIntracellular chlorideTheNecturus proximal tubuleIntracellular pHApical cell membraneNH4Cl treatmentChloride transportChloride activityKidney
1981
Isolated perfused salamander proximal tubule. II. Monovalent ion replacement and rheogenic transport
Sackin H, Boulpaep E. Isolated perfused salamander proximal tubule. II. Monovalent ion replacement and rheogenic transport. American Journal Of Physiology 1981, 241: f540-f555. PMID: 7304748, DOI: 10.1152/ajprenal.1981.241.5.f540.Peer-Reviewed Original Research
1979
Effect of amiloride on the apical cell membrane cation channels of a sodium-absorbing, potassium-secreting renal epithelium
O'Neil R, Boulpaep E. Effect of amiloride on the apical cell membrane cation channels of a sodium-absorbing, potassium-secreting renal epithelium. The Journal Of Membrane Biology 1979, 50: 365-387. PMID: 513119, DOI: 10.1007/bf01868898.Peer-Reviewed Original ResearchConceptsLumen-negative transepithelial potential differenceActive Na absorptionApical cell membraneEffects of amilorideEquivalent short-circuit currentTransepithelial potential differenceNa absorptionMaximum inhibitory concentrationAmilorideDiuretic amilorideCation channelsCell membraneNa channelsInhibitory concentrationRenal epitheliumMembrane cation channelsRemoval of NaAbsence of NaTight junctionsPerfusateK permeabilityTubulesLumen
1978
Factors influencing transepithelial potential difference in mammalian distal tubule
Hayslett J, Boulpaep E, Giebisch G. Factors influencing transepithelial potential difference in mammalian distal tubule. American Journal Of Physiology 1978, 234: f182-f191. PMID: 629352, DOI: 10.1152/ajprenal.1978.234.3.f182.Peer-Reviewed Original Research
1971
Electrolyte transport in kidney tubule cells
Giebisch G, Boulpaep E, Whittembury G. Electrolyte transport in kidney tubule cells. Philosophical Transactions Of The Royal Society B Biological Sciences 1971, 262: 175-196. PMID: 4399217, DOI: 10.1098/rstb.1971.0088.Peer-Reviewed Original ResearchConceptsTubule cellsTubular levelKidney tubule cellsNet Na transportActive K uptakePotassium secretionNa-K exchange pumpK secretionProximal tubular levelLuminal cell membraneElectrolyte transportNa pumpLines of evidenceTranstubular movementNa transportNet NaCell compartmentExchange pumpSecretionInterstitial fluidCellsLumenPassive leakIonic pumpsUptake