2021
Sex difference in kidney electrolyte transport III: Impact of low K intake on thiazide-sensitive cation excretion in male and female mice
Xu S, Li J, Yang L, Wang CJ, Liu T, Weinstein AM, Palmer LG, Wang T. Sex difference in kidney electrolyte transport III: Impact of low K intake on thiazide-sensitive cation excretion in male and female mice. Pflügers Archiv - European Journal Of Physiology 2021, 473: 1749-1760. PMID: 34455480, PMCID: PMC8528772, DOI: 10.1007/s00424-021-02611-5.Peer-Reviewed Original ResearchConceptsGlomerular filtration rateFemale miceUrine volumeNaCl cotransporterLow K intakeMeasurement of functionSex differencesNatriuretic responseFractional excretionK intakeTransport protein expressionFiltration rateNCC abundanceNCC expressionRenal clearanceDistal nephronLK dietCation excretionPlasma KNCC proteinNKCC2 expressionWestern blottingProtein expressionMiceFENa
2020
Sex Difference In Kidney Electrolyte Transport III: Impact of Low K intake on Thiazide‐Sensitive Cation Excretion in Male and Female Mice
Xu S, Li J, Yang L, Wang C, Liu T, Weinstein A, Palmer L, Wang T. Sex Difference In Kidney Electrolyte Transport III: Impact of Low K intake on Thiazide‐Sensitive Cation Excretion in Male and Female Mice. The FASEB Journal 2020, 34: 1-1. DOI: 10.1096/fasebj.2020.34.s1.04495.Peer-Reviewed Original ResearchGlomerular filtration rateFemale miceUrine volumeCation excretionNCC proteinNCC activityDietary potassium intakeLow K intakeRole of NCCMeasurement of functionSex differencesNatriuretic responsePotassium intakeK intakeFiltration rateMale miceNCC abundanceNCC expressionDistal tubulesDistal nephronElectrolyte homeostasisLK dietSodium absorptionHCTZK restriction
2016
Expression of KCNJ1 (ROMK) in the Gastrointestinal Tract
Han J, Lee S, Ishikawa Y, Guo X, Xu S, Wang T. Expression of KCNJ1 (ROMK) in the Gastrointestinal Tract. The FASEB Journal 2016, 30 DOI: 10.1096/fasebj.30.1_supplement.1224.31.Peer-Reviewed Original ResearchROMK expressionDistal colonMRNA expressionKO miceRenal outer medullary potassium channelEpithelial cellsGI tractGastric acid secretionGastrointestinal (GI) tractHK intakeROMK channelsWT miceDistal nephronReal-time PCRApical membraneROMKPotassium channelsAcid secretionParietal cellsIF stainingRenal tubulesQ-PCR dataEsophagusDiet animalsGastrointestinal tract
2011
Differential regulation of ROMK (Kir1.1) in distal nephron segments by dietary potassium
Wade JB, Fang L, Coleman RA, Liu J, Grimm PR, Wang T, Welling PA. Differential regulation of ROMK (Kir1.1) in distal nephron segments by dietary potassium. American Journal Of Physiology. Renal Physiology 2011, 300: f1385-f1393. PMID: 21454252, PMCID: PMC3119145, DOI: 10.1152/ajprenal.00592.2010.Peer-Reviewed Original ResearchConceptsDistal nephronDistal nephron segmentsRenal K secretionROMK knockout miceDietary potassiumExtent of expressionKnockout miceK secretionROMK expressionNephron segmentsNew antibodiesApical labelingPhysiological stimuliNephronROMKAntibodiesROMK channelsApical expressionChannel localizationChannel functionDifferential regulationLarge increaseDCT2Different regulatory mechanismsExtensive pattern
2010
Mechanotransduction in the renal tubule
Weinbaum S, Duan Y, Satlin LM, Wang T, Weinstein AM. Mechanotransduction in the renal tubule. American Journal Of Physiology. Renal Physiology 2010, 299: f1220-f1236. PMID: 20810611, PMCID: PMC3006307, DOI: 10.1152/ajprenal.00453.2010.Peer-Reviewed Original Research
2009
Functional expression of the olfactory signaling system in the kidney
Pluznick JL, Zou DJ, Zhang X, Yan Q, Rodriguez-Gil DJ, Eisner C, Wells E, Greer CA, Wang T, Firestein S, Schnermann J, Caplan MJ. Functional expression of the olfactory signaling system in the kidney. Proceedings Of The National Academy Of Sciences Of The United States Of America 2009, 106: 2059-2064. PMID: 19174512, PMCID: PMC2644163, DOI: 10.1073/pnas.0812859106.Peer-Reviewed Original ResearchConceptsGlomerular filtration ratePlasma renin levelsMacula densa cellsCOX-2 expressionRenal distal nephronOlfactory G-proteinMDS cell linesOlfactory receptorsRenin levelsRenin secretionFiltration rateNNOS activityTubuloglomerular feedbackDistal nephronOlfactory epitheliumRenal tubulesGFR regulationAdenylate cyclaseG proteinsCell linesSensory roleKidneyFunctional expressionOlfactionExpression
2006
Low Na intake suppresses expression of CYP2C23 and arachidonic acid-induced inhibition of ENaC
Sun P, Lin D, Wang T, Babilonia E, Wang Z, Jin Y, Kemp R, Nasjletti A, Wang W. Low Na intake suppresses expression of CYP2C23 and arachidonic acid-induced inhibition of ENaC. American Journal Of Physiology. Renal Physiology 2006, 291: f1192-f1200. PMID: 16849695, DOI: 10.1152/ajprenal.00112.2006.Peer-Reviewed Original ResearchMeSH Keywords8,11,14-Eicosatrienoic AcidAnimalsArachidonic AcidCytochrome P-450 CYP2J2Cytochrome P-450 Enzyme SystemEpithelial Sodium ChannelsFemaleIon Channel GatingKidney Tubules, CollectingMaleMembrane PotentialsPatch-Clamp TechniquesRatsRats, Sprague-DawleySodium, DietarySpecific Pathogen-Free OrganismsConceptsExpression of CYP2C23Thick ascending limbMS-PPOHArachidonic acidEpoxyeicosatrienoic acidsDistal nephronNa absorptionInhibitory effectArachidonic acid-induced inhibitionHigh Na dietNa-deficient dietNa transportMicroM arachidonic acidEpithelial Na channelTamm-Horsfall proteinPatch-clamp studiesCortical CDCYP epoxygenaseAcid-induced inhibitionActivity of ENaCNa dietControl ratsRenal cortexPositive tubulesCYP2C23Use of transgenic mice in acid-base balance studies.
Cantone A, Wang T, Pica A, Simeoni M, Capasso G. Use of transgenic mice in acid-base balance studies. Journal Of Nephrology 2006, 19 Suppl 9: s121-7. PMID: 16736435.Peer-Reviewed Original ResearchMeSH KeywordsAcid-Base EquilibriumAcid-Base ImbalanceAnimalsCation Transport ProteinsDisease Models, AnimalDNAGene ExpressionKidney TubulesMembrane ProteinsMiceMice, TransgenicNitric Oxide SynthaseSodium-Bicarbonate SymportersSodium-Hydrogen Exchanger 1Sodium-Hydrogen Exchanger 3Sodium-Hydrogen ExchangersConceptsAcid-base statusNitric oxide synthaseTransgenic miceMedullary thick ascending limbProximal tubule transportThick ascending limbSubunit expression levelsPotassium-chloride cotransporterKnockout animal modelsAcid-base balanceKidney regulationTransepithelial HCO3- absorptionNatriuretic responseBlood pressureRenal diseaseOxide synthaseDistal nephronAnimal modelsEndothelial isoformTubule transportBasolateral NHE1Proximal tubulesFunction of pendrinAscending limbHCO3- absorption
1996
Effects of angiotensin II on electrolyte transport in the early and late distal tubule in rat kidney
Wang T, Giebisch G. Effects of angiotensin II on electrolyte transport in the early and late distal tubule in rat kidney. American Journal Of Physiology 1996, 271: f143-f149. PMID: 8760255, DOI: 10.1152/ajprenal.1996.271.1.f143.Peer-Reviewed Original ResearchConceptsLate distal tubuleEarly distal tubuleAng IIDistal tubulesRat kidneyAng II receptor antagonistsAngiotensin II stimulatesAngiotensin receptor blockersII receptor antagonistsInitial collecting tubuleLuminal administrationCortical nephronsAngiotensin IIIntravenous infusionReceptor antagonistTubular perfusateDistal nephronLuminal applicationCollecting tubuleProximal tubulesSeparate perfusionHigh dosesLow dosesHormone effectsNephron segments