2016
Oxalate-induced chronic kidney disease with its uremic and cardiovascular complications in C57BL/6 mice
Mulay SR, Eberhard JN, Pfann V, Marschner JA, Darisipudi MN, Daniel C, Romoli S, Desai J, Grigorescu M, Kumar SV, Rathkolb B, Wolf E, Hrabě de Angelis M, Bäuerle T, Dietel B, Wagner CA, Amann K, Eckardt KU, Aronson PS, Anders HJ, Knauf F. Oxalate-induced chronic kidney disease with its uremic and cardiovascular complications in C57BL/6 mice. American Journal Of Physiology. Renal Physiology 2016, 310: f785-f795. PMID: 26764204, PMCID: PMC5504458, DOI: 10.1152/ajprenal.00488.2015.Peer-Reviewed Original ResearchConceptsC57BL/6 miceChronic kidney disease researchOxalate-rich dietChronic kidney diseaseFemale C57BL/6 miceArterial hypertensionCardiovascular complicationsKidney disease researchAtubular glomeruliInterstitial inflammationRenal histologyTubular damageKidney diseaseCardiac fibrosisMetabolic acidosisNormochromic anemiaTissue involvementHistological changesHuman CKDCKDExperimental animalsComplicationsInducible modelControl dietFibrosis
2013
Overexpression of Pendrin in Intercalated Cells Produces Chloride-Sensitive Hypertension
Jacques T, Picard N, Miller RL, Riemondy KA, Houillier P, Sohet F, Ramakrishnan SK, Büsst CJ, Jayat M, Cornière N, Hassan H, Aronson PS, Hennings JC, Hübner CA, Nelson RD, Chambrey R, Eladari D. Overexpression of Pendrin in Intercalated Cells Produces Chloride-Sensitive Hypertension. Journal Of The American Society Of Nephrology 2013, 24: 1104-1113. PMID: 23766534, PMCID: PMC3699825, DOI: 10.1681/asn.2012080787.Peer-Reviewed Original ResearchConceptsDistal nephronTransgenic miceSame sodium intakeHigh salt intakeCause of hypertensionHigh-salt dietSodium-driven chloride/bicarbonate exchangerNet NaCl absorptionArterial hypertensionSalt intakeSodium intakeEpithelial sodium channel ENaCPathogenic roleNormal miceHypertensionRenal absorptionExchanger pendrinPrimary abnormalityVascular volumeAppropriate downregulationIntercalated cellsChloride absorptionSodium channel ENaCActivity of transportersPrimary activation
1991
Na+-H+ Exchanger and Its Role in Essential Hypertension and Diabetes Mellitus
Huot S, Aronson P. Na+-H+ Exchanger and Its Role in Essential Hypertension and Diabetes Mellitus. Diabetes Care 1991, 14: 521-535. PMID: 1650693, DOI: 10.2337/diacare.14.6.521.Commentaries, Editorials and LettersConceptsDiabetes mellitusEssential hypertensionInsulin-dependent diabetes mellitusHigh blood pressureSubgroup of patientsBlood pressureHypertensionAnimal modelsPathophysiological statesTransepithelial absorptionAltered activityCellular mechanismsMellitusPatientsIntracellular pHPossible roleCell volume regulationVolume regulationCell growthRecent cDNA cloningNephropathyUbiquitous transport systems
1985
The plasma membrane sodium-hydrogen exchanger and its role in physiological and pathophysiological processes.
Mahnensmith RL, Aronson PS. The plasma membrane sodium-hydrogen exchanger and its role in physiological and pathophysiological processes. Circulation Research 1985, 56: 773-788. PMID: 2988813, DOI: 10.1161/01.res.56.6.773.Commentaries, Editorials and LettersMeSH KeywordsAcid-Base EquilibriumAnimalsBiological Transport, ActiveBlood PlateletsCalciumCarrier ProteinsCations, MonovalentCell MembraneEpitheliumHormonesHumansHydrogenHydrogen-Ion ConcentrationHypertensionLeukocytesMembrane ProteinsNeoplasmsSodiumSodium-Hydrogen ExchangersSodium-Potassium-Exchanging ATPaseWater-Electrolyte BalanceConceptsSodium-hydrogen exchangerCellular acid-base homeostasisAllosteric regulationPlasma membraneRegulation of intracellularStimulus-response couplingIntracellular protonsPathophysiological processesPhysiological roleTransport systemTransmembrane exchangeCell growthAcid-base homeostasisRegulationSodium-hydrogen exchangeKinetic propertiesSuch diverse conditionsMetabolic responsePathophysiological roleDiverse conditionsCellsCell volumeRoleHomeostasisIntracellular