2024
Interleukin-16 is increased in dialysis patients but is not a cardiovascular risk factor
Brösecke F, Pfau A, Ermer T, Dein Terra Mota Ribeiro A, Rubenbauer L, Rao V, Burlein S, Genser B, Reichel M, Aronson P, Coca S, Knauf F. Interleukin-16 is increased in dialysis patients but is not a cardiovascular risk factor. Scientific Reports 2024, 14: 11323. PMID: 38760468, PMCID: PMC11101424, DOI: 10.1038/s41598-024-61808-7.Peer-Reviewed Original ResearchConceptsIL-16 levelsIL-16Dialysis patientsCardiovascular eventsConcentrations of IL-16Kidney failureUremic toxinsCardiovascular diseaseCompared to healthy individualsPlasma oxalate concentrationActivated immune cellsAssociated with cardiovascular diseaseIL-16 concentrationCytokine IL-16Cardiovascular risk factorsNo significant associationPlasma oxalateInflammatory markersImmune cellsCytokine concentrationsInterleukin-16US patientsCohort 1Cardiovascular outcomesHealthy individuals
2021
High Oxalate Concentrations Correlate with Increased Risk for Sudden Cardiac Death in Dialysis Patients
Pfau A, Ermer T, Coca S, Tio MC, Genser B, Reichel M, Finkelstein FO, März W, Wanner C, Waikar SS, Eckardt KU, Aronson P, Drechsler C, Knauf F. High Oxalate Concentrations Correlate with Increased Risk for Sudden Cardiac Death in Dialysis Patients. Journal Of The American Society Of Nephrology 2021, 32: 2375-2385. PMID: 34281958, PMCID: PMC8729829, DOI: 10.1681/asn.2020121793.Peer-Reviewed Original ResearchConceptsSudden cardiac deathCardiac deathCardiovascular eventsKidney failurePrimary composite cardiovascular end pointComposite cardiovascular end pointGerman Diabetes Dialysis StudyCox proportional hazards modelCardiovascular end pointsCohort of patientsNovel risk factorsProportional hazards modelCubic spline modelingCause mortalityChronic dialysisCardiovascular mortalityDialysis patientsStudy cohortUS patientsRisk regressionRisk factorsEuropean patientsSerum oxalate concentrationClinical significanceSeparate cohort
2018
Characterization of renal NaCl and oxalate transport in Slc26a6−/− mice
Knauf F, Velazquez H, Pfann V, Jiang Z, Aronson PS. Characterization of renal NaCl and oxalate transport in Slc26a6−/− mice. American Journal Of Physiology. Renal Physiology 2018, 316: f128-f133. PMID: 30427220, PMCID: PMC6383200, DOI: 10.1152/ajprenal.00309.2018.Peer-Reviewed Original ResearchConceptsWild-type miceNaCl homeostasisBlood pressureProximal tubulesFree-flow micropuncture studiesSurface proximal tubulesLow-salt dietMean blood pressureLower blood pressureUrine flow rateLack of effectFurosemide infusionNet renal secretionSodium excretionUrine oxalateFractional excretionMicropuncture studiesNaCl deliveryRenal secretionApical membrane ClExchanger SLC26A6MiceRenal NaClNaCl transportHomeostasis
2013
NALP3-mediated inflammation is a principal cause of progressive renal failure in oxalate nephropathy
Knauf F, Asplin JR, Granja I, Schmidt IM, Moeckel GW, David RJ, Flavell RA, Aronson PS. NALP3-mediated inflammation is a principal cause of progressive renal failure in oxalate nephropathy. Kidney International 2013, 84: 895-901. PMID: 23739234, PMCID: PMC3772982, DOI: 10.1038/ki.2013.207.Peer-Reviewed Original ResearchConceptsProgressive renal failureRenal failureCalcium oxalate crystal depositionCrystal-associated diseasesOverproduction of oxalateWild-type miceHigh-oxalate dietNephropathy resultsOxalate nephropathyRenal histologyKidney diseaseOxalate dietInflammatory responseNALP3 expressionDietary oxalateIntestinal oxalateOxalate homeostasisSoluble oxalateNephropathyCrystal depositionMiceMultiple disordersNALP3DietInflammation
2012
Urinary Metabolic Phenotyping the slc26a6 (Chloride–Oxalate Exchanger) Null Mouse Model
Garcia-Perez I, Villaseñor A, Wijeyesekera A, Posma JM, Jiang Z, Stamler J, Aronson P, Unwin R, Barbas C, Elliott P, Nicholson J, Holmes E. Urinary Metabolic Phenotyping the slc26a6 (Chloride–Oxalate Exchanger) Null Mouse Model. Journal Of Proteome Research 2012, 11: 4425-4435. PMID: 22594923, PMCID: PMC4028149, DOI: 10.1021/pr2012544.Peer-Reviewed Original ResearchConceptsRenal stone diseaseStone diseaseNull miceUrinary metabolic signaturesBlood pressure controlWild-type miceNull mouse modelRenal stone formationRenal proximal tubulesUrinary metabolicUrinary metabolomeClear metabolic differentiationSodium homeostasisRenal stonesType miceMouse modelUrinary metabolitesOxalate balanceUrinary profilesProximal tubulesPressure controlStone formationExchanger SLC26A6Metabolic signaturesPathological processes
2008
Phenotypic and Functional Analysis of Human SLC26A6 Variants in Patients With Familial Hyperoxaluria and Calcium Oxalate Nephrolithiasis
Monico CG, Weinstein A, Jiang Z, Rohlinger AL, Cogal AG, Bjornson BB, Olson JB, Bergstralh EJ, Milliner DS, Aronson PS. Phenotypic and Functional Analysis of Human SLC26A6 Variants in Patients With Familial Hyperoxaluria and Calcium Oxalate Nephrolithiasis. American Journal Of Kidney Diseases 2008, 52: 1096-1103. PMID: 18951670, PMCID: PMC2710965, DOI: 10.1053/j.ajkd.2008.07.041.Peer-Reviewed Original ResearchConceptsPrimary hyperoxaluria type 1Oxalate transportMajor risk factorCalcium oxalate nephrolithiasisUrine oxalate levelsCalcium oxalate urolithiasisRare variantsHyperoxaluria type 1Calcium oxalate stonesAdditional missense variantsUrine oxalateOxalate excretionRisk factorsOxalate nephrolithiasisOxalate urolithiasisHyperoxaluriaAbstractTextAdult subjectsType 1Oxalate stonesPotential modifiersStudy designOxalate levelsGood healthMissense variants
2007
Ontogeny of NHE8 in the rat proximal tubule
Becker AM, Zhang J, Goyal S, Dwarakanath V, Aronson PS, Moe OW, Baum M. Ontogeny of NHE8 in the rat proximal tubule. American Journal Of Physiology. Renal Physiology 2007, 293: f255-f261. PMID: 17429030, PMCID: PMC4119019, DOI: 10.1152/ajprenal.00400.2006.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBlotting, WesternDNA, ComplementaryElectrophoresis, Polyacrylamide GelFemaleImmunohistochemistryKidney Tubules, ProximalMicroscopy, FluorescenceMicrovilliPregnancyProteinsRatsRats, Sprague-DawleyReverse Transcriptase Polymerase Chain ReactionRNASodium-Hydrogen Exchanger 3Sodium-Hydrogen ExchangersConceptsRat proximal tubuleProximal tubulesAdult ratsNHE3 expressionProximal tubule bicarbonate reabsorptionReal-time RT-PCRProton secretionNeonatal proximal tubuleNHE8 expressionApical membraneBicarbonate reabsorptionMaturational increaseMaturational changesNeonatesNHE8RT-PCRBrush border membrane vesiclesTubulesRatsCortical membrane proteinsSecretionPresent studyDevelopmental expressionAdultsBorder membrane vesicles
2006
Regulation of anion exchanger Slc26a6 by protein kinase C
Hassan HA, Mentone S, Karniski LP, Rajendran VM, Aronson PS. Regulation of anion exchanger Slc26a6 by protein kinase C. American Journal Of Physiology - Cell Physiology 2006, 292: c1485-c1492. PMID: 17151144, DOI: 10.1152/ajpcell.00447.2006.Peer-Reviewed Original ResearchMeSH KeywordsAcetophenonesAnimalsAnion Transport ProteinsAntiportersBenzopyransBiological Transport, ActiveCarbazolesCell MembraneChloridesCytoplasmEnzyme ActivationFemaleFormatesIn Vitro TechniquesIndolesMaleimidesMiceOocytesOxalatesProtein Kinase C-deltaProtein TransportSulfate TransportersTetradecanoylphorbol AcetateXenopusConceptsPKC activationOxalate secretionIntestinal oxalate secretionFormate exchangeRenal proximal tubulesAnion exchanger pendrinPancreatic ductExchanger pendrinProximal tubulesSmall intestineSLC26A6 expressionNaCl reabsorptionCalcium independentSimilar extentPotential rolePKC-delta activationProtein kinase CActivationSecretionSlc26a6Immunofluorescence microscopyXenopus oocytesPMAPhysiological significanceOocyte plasma membrane
2002
Formate-stimulated NaCl absorption in the proximal tubule is independent of the pendrin protein
Karniski LP, Wang T, Everett LA, Green ED, Giebisch G, Aronson PS. Formate-stimulated NaCl absorption in the proximal tubule is independent of the pendrin protein. American Journal Of Physiology. Renal Physiology 2002, 283: f952-f956. PMID: 12372770, DOI: 10.1152/ajprenal.00182.2002.Peer-Reviewed Original ResearchConceptsProximal tubulesChloride/formate exchangeNaCl reabsorptionChloride reabsorptionElectroneutral NaCl reabsorptionNaCl absorptionRole of pendrinFormate exchangePds-knockout mouseRecycling of formatePendrin proteinReabsorptionMicePendrinBrush border membrane vesiclesTubulesPresent studyChloride transportApical membrane
2001
Identification of a chloride-formate exchanger expressed on the brush border membrane of renal proximal tubule cells
Knauf F, Yang C, Thomson R, Mentone S, Giebisch G, Aronson P. Identification of a chloride-formate exchanger expressed on the brush border membrane of renal proximal tubule cells. Proceedings Of The National Academy Of Sciences Of The United States Of America 2001, 98: 9425-9430. PMID: 11459928, PMCID: PMC55437, DOI: 10.1073/pnas.141241098.Peer-Reviewed Original ResearchMeSH Keywords4,4'-Diisothiocyanostilbene-2,2'-Disulfonic AcidAmino Acid SequenceAnimalsAntiportersBase SequenceCloning, MolecularCOS CellsDNA PrimersDNA, ComplementaryFemaleKidney Tubules, ProximalMiceMice, Inbred C57BLMicroscopy, FluorescenceMicrovilliMolecular Sequence DataSodium-Phosphate Cotransporter Proteins, Type IIaXenopus laevis
1992
Assembly of distinctive coated pit and microvillar microdomains in the renal brush border
Biemesderfer D, Dekan G, Aronson PS, Farquhar MG. Assembly of distinctive coated pit and microvillar microdomains in the renal brush border. American Journal Of Physiology 1992, 262: f55-f67. PMID: 1733297, DOI: 10.1152/ajprenal.1992.262.1.f55.Peer-Reviewed Original Research
1979
Dissociation of proximal tubular glucose and Na+ reabsorption by amphotericin B
Aronson PS, Hayslett JP, Kashgarian M. Dissociation of proximal tubular glucose and Na+ reabsorption by amphotericin B. American Journal Of Physiology 1979, 236: f392-f397. PMID: 434214, DOI: 10.1152/ajprenal.1979.236.4.f392.Peer-Reviewed Original ResearchConceptsAmphotericin BGlucose reabsorptionProximal tubulesNecturus proximal tubuleGlucose uptakeTubular glucose reabsorptionStopped-flow microperfusionRenal cortexRabbit renal cortexTubular lumenReabsorptionLuminal membraneGlucoseMicrovillus membrane vesiclesTubulesUptakeAmphotericinMembrane vesicle preparationsMicroperfusion