1998
Molecular Pathogenesis of Cholestasis
Epstein F, Trauner M, Meier P, Boyer J. Molecular Pathogenesis of Cholestasis. New England Journal Of Medicine 1998, 339: 1217-1227. PMID: 9780343, DOI: 10.1056/nejm199810223391707.Peer-Reviewed Original Research
1995
ATP depletion and inactivation of an ATP-sensitive taurine channel by classic ion channel blockers.
Ballatori N, Truong A, Jackson P, Strange K, Boyer J. ATP depletion and inactivation of an ATP-sensitive taurine channel by classic ion channel blockers. Molecular Pharmacology 1995, 48: 472-6. PMID: 7565627.Peer-Reviewed Original ResearchConceptsIon channel blockersChannel blockersVolume-activated anion channelsATP levelsATP contentActivity of ATPPhysiologic alterationsIntracellular ATP levelsCellular ATPTaurine effluxBlockersIntracellular ATP contentTaurine channelCellular ATP levelsATP/ADP ratioIntracellular organic osmolytesSkate hepatocytesIntracellular ATPATP depletionCell volume regulationDifferent cell typesEffluxCellular ATP concentrationMetabolic poisonsCell types
1992
Taurine transport in skate hepatocytes. II. Volume activation, energy, and sulfhydryl dependence
Ballatori N, Boyer J. Taurine transport in skate hepatocytes. II. Volume activation, energy, and sulfhydryl dependence. American Journal Of Physiology 1992, 262: g451-g460. PMID: 1550235, DOI: 10.1152/ajpgi.1992.262.3.g451.Peer-Reviewed Original Research
1988
Mechanisms of Bile Secretion: lnsights from the Isolated Rat Hepatocyte Couplet
Boyer J, Gautam A, Graf J. Mechanisms of Bile Secretion: lnsights from the Isolated Rat Hepatocyte Couplet. Seminars In Liver Disease 1988, 8: 308-316. PMID: 2850606, DOI: 10.1055/s-2008-1040552.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBileBile Acids and SaltsBiological Transport, ActiveCell Membrane PermeabilityLiverRatsSodium-Potassium-Exchanging ATPaseCharacteristics of L-alanine uptake in freshly isolated hepatocytes of elasmobranch Raja erinacea
Ballatori N, Boyer J. Characteristics of L-alanine uptake in freshly isolated hepatocytes of elasmobranch Raja erinacea. American Journal Of Physiology 1988, 254: r801-r808. PMID: 3364608, DOI: 10.1152/ajpregu.1988.254.5.r801.Peer-Reviewed Original ResearchMeSH KeywordsAlanineAminoisobutyric AcidsAminooxyacetic AcidAnimalsBileBiological Transport, ActiveDose-Response Relationship, DrugGlucagonGluconeogenesisGlutathioneLiverMaleSkates, FishConceptsNeutral amino acid transport systemElasmobranch Raja erinaceaMajor gluconeogenic precursorMM alanineSodium-dependent systemAmino acid transport systemsRaja erinaceaHepatic uptakeHepatic concentrationsAcid transport systemL-alanine uptakeAminotransferase activityTumor cellsSpecific transport mechanismsMeAIB transportGluconeogenic precursorsSaturable mechanismSkate hepatocytesHepatocytesAlanine metabolismGlucose releaseMeAIBHepatocyte suspensionsRat hepatocytesUptake
1986
Sodium gradient-dependent L-glutamate transport is localized to the canalicular domain of liver plasma membranes. Studies in rat liver sinusoidal and canalicular membrane vesicles.
Ballatori N, Moseley R, Boyer J. Sodium gradient-dependent L-glutamate transport is localized to the canalicular domain of liver plasma membranes. Studies in rat liver sinusoidal and canalicular membrane vesicles. Journal Of Biological Chemistry 1986, 261: 6216-6221. PMID: 2871024, DOI: 10.1016/s0021-9258(19)84550-7.Peer-Reviewed Original Research