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Effects of Glyburide on Renal Tubule Transport and Potassium-Channel Activity
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1995
Year
Electrolyte DisorderBiomedical EngineeringRenal Tubule TransportCellular PhysiologySocial SciencesRenal FunctionMembrane TransportElectrolyte DisturbanceChronic Kidney DiseaseRenal PharmacologyK SecretionIon ChannelsElectrolyte ExcretionApical MembraneRenal PathophysiologyPharmacologyPotassium HomeostasisUrologyNeurophysiologyPhysiologyElectrophysiologyMedicineNephrology
Renal clearance, microperfusion and patch-clamp techniques were used to investigate the effects of the K-channel blocker glyburide on electrolyte excretion, the transport properties of the thick ascending limb (TAL) of Henle and K-channel activity in the apical membrane of the TAL and of the cortical collecting tubule. Our data suggest that the K-channel blocker glyburide can inhibit transport of Na and K in the TAL by blocking K recycling across the apical membrane. Additionally, inhibition of K secretion in the collecting ducts occurs by decreasing the activity of apical K channels and prevents kaliuresis.