2011
Functional role of NHE4 as a pH regulator in rat and human colonic crypts
Arena EA, Longo WE, Roberts KE, Geibel P, Nateqi J, Brandstetter M, Geibel JP. Functional role of NHE4 as a pH regulator in rat and human colonic crypts. American Journal Of Physiology - Cell Physiology 2011, 302: c412-c418. PMID: 22049213, DOI: 10.1152/ajpcell.00163.2011.Peer-Reviewed Original ResearchConceptsHuman colonic cryptsNHE4 activityColonic cryptsElective colon resectionEffects of aldosteroneSprague-Dawley ratsColon resectionRat modelGastrointestinal tractAldosteroneColonic samplesΜM forskolinFluid homeostasisRatsHuman colonHuman specimensCAMP levelsIntracellular pathwaysCryptsNHE4ColonSignificant changesLittle descriptionFunctional roleRecent studies
2004
Nongenomic stimulation of vacuolar H+-ATPases in intercalated renal tubule cells by aldosterone
Winter C, Schulz N, Giebisch G, Geibel JP, Wagner CA. Nongenomic stimulation of vacuolar H+-ATPases in intercalated renal tubule cells by aldosterone. Proceedings Of The National Academy Of Sciences Of The United States Of America 2004, 101: 2636-2641. PMID: 14983061, PMCID: PMC357002, DOI: 10.1073/pnas.0307321101.Peer-Reviewed Original ResearchConceptsAcid-base homeostasisMineralocorticoid receptorStimulatory effectAldosterone-induced stimulationSystemic acid-base homeostasisDistal tubular acidosisRenal tubule cellsAcid-base statusNongenomic modulationNongenomic stimulationRenal collecting ductsAngiotensin IITransepithelial pH gradientTubular acidosisUrine acidificationAldosteroneATPase activityRenal acidificationHydrogen secretionIntracellular Ca2Complete reabsorptionATPase stainingTubule cellsCollecting ductsNongenomic pathways
2002
Acid-base transport in the collecting duct.
Wagner CA, Geibel JP. Acid-base transport in the collecting duct. Journal Of Nephrology 2002, 15 Suppl 5: s112-27. PMID: 12027210.Peer-Reviewed Original ResearchConceptsDistal renal tubular acidosisRisk of nephrocalcinosisAcid-base transportRenal tubular acidosisAngiotensin IIMetabolic acidosisTubular acidosisBicarbonate handlingElectrolyte statusRenal electrolyteMetabolic statusAcidosisFinal secretionDuctTranscellular movementProtein mutationsGenetic diseasesStatusBicarbonateAldosteroneCellsNephrocalcinosisEndothelinLithiasisSyndrome
1997
RAPID ALDOSTERONE‐INDUCED CELL VOLUME INCREASE OF ENDOTHELIAL CELLS MEASURED BY THE ATOMIC FORCE MICROSCOPE
SCHNEIDER S, YANO Y, SUMPIO B, JENA B, GEIBEL J, GEKLE M, OBERLEITHNER H. RAPID ALDOSTERONE‐INDUCED CELL VOLUME INCREASE OF ENDOTHELIAL CELLS MEASURED BY THE ATOMIC FORCE MICROSCOPE. Cell Biology International 1997, 21: 759-768. PMID: 9768474, DOI: 10.1006/cbir.1997.0220.Peer-Reviewed Original ResearchConceptsEndothelial cellsAddition of aldosteroneArterial blood pressureNon-genomic effectsCultured endothelial cellsBlood pressureMineralocorticoid hormonesHormone exposureAldosteroneCell volumeHuman leukocytesIntracellular electrolytesTransient swellingTriphosphate productionIntracellular pHLeukocytesVolume increaseBovine aortaContinuous presenceCellsPlasma membrane
1989
Mechanism of aldosterone-induced increase of K+ conductance in early distal renal tubule cells of the frog
Wang W, Henderson R, Geibel J, White S, Giebisch G. Mechanism of aldosterone-induced increase of K+ conductance in early distal renal tubule cells of the frog. The Journal Of Membrane Biology 1989, 111: 277-289. PMID: 2557452, DOI: 10.1007/bf01871012.Peer-Reviewed Original ResearchConceptsEarly distal tubule cellsTubule cellsDistal renal tubule cellsFrog kidneyWhole-cell voltage-clamp techniqueRemoval of aldosteronePresence of aldosteroneAldosterone-induced increaseType II channelsDistal tubule cellsOuabain-treated cellsPatch-clamp techniqueRenal tubule cellsVoltage-clamp techniquePresence of furosemideAldosterone treatmentAldosteroneIncubation of cellsKidneyOpen probabilityDistal cellsHrCellsIntracellularComplete absence