2015
Pharmacological modulation of the AKT/microRNA-199a-5p/CAV1 pathway ameliorates cystic fibrosis lung hyper-inflammation
Zhang PX, Cheng J, Zou S, D'Souza AD, Koff JL, Lu J, Lee PJ, Krause DS, Egan ME, Bruscia EM. Pharmacological modulation of the AKT/microRNA-199a-5p/CAV1 pathway ameliorates cystic fibrosis lung hyper-inflammation. Nature Communications 2015, 6: 6221. PMID: 25665524, PMCID: PMC4324503, DOI: 10.1038/ncomms7221.Peer-Reviewed Original ResearchConceptsCF macrophagesMiR-199aMicroRNA-199aHyper-inflammatory responseCFTR-deficient miceCystic fibrosis patientsCystic fibrosis lungLung destructionDisease morbidityPharmacological modulationCF miceCF lungFibrosis patientsInnate immunityLungMacrophagesCAV1 expressionDrug celecoxibReduced levelsTLR4CelecoxibMiceCav1PathwayMorbidity
1999
CFTR Is a Conductance Regulator as well as a Chloride Channel
SCHWIEBERT E, BENOS D, EGAN M, STUTTS M, GUGGINO W. CFTR Is a Conductance Regulator as well as a Chloride Channel. Physiological Reviews 1999, 79: s145-s166. PMID: 9922379, DOI: 10.1152/physrev.1999.79.1.s145.Peer-Reviewed Original ResearchConceptsCystic fibrosis transmembrane conductance regulatorConductance regulatorABC transportersCassette transporter gene familyCFTR Cl- channel functionTransporter gene familyFamily of transportersChloride channelsFibrosis transmembrane conductance regulatorCl- channel functionABC transporter familyTransmembrane conductance regulatorIon channel proteinsCystic fibrosis epitheliaGene familyCellular functionsCellular proteinsTransporter familyChannel proteinsCF geneAmino acidsIon channelsRegulatorTransportersCl- channels
1998
[49] Assays of dynamics, mechanisms, and regulation of ATP transport and release: Implications for study of ABC transporter function
Schwiebert E, Egan M, Guggino W. [49] Assays of dynamics, mechanisms, and regulation of ATP transport and release: Implications for study of ABC transporter function. Methods In Enzymology 1998, 292: 664-675. PMID: 9711590, DOI: 10.1016/s0076-6879(98)92051-1.Peer-Reviewed Original ResearchMeSH Keywords3T3 CellsAdenosine TriphosphateAnimalsATP-Binding Cassette TransportersCells, CulturedColforsinCystic Fibrosis Transmembrane Conductance RegulatorElectrophysiologyEpithelial CellsHumansIonomycinLuminescent MeasurementsMembrane PotentialsMiceModels, BiologicalOocytesOsmolar ConcentrationPatch-Clamp TechniquesSignal TransductionTritiumConceptsCystic fibrosis transmembrane conductance regulatorABC transportersATP-binding cassette (ABC) transportersSulfonylurea receptorFibrosis transmembrane conductance regulatorTransport of ATPABC transporter functionTransmembrane conductance regulatorImportance of ATPRegulatory machineryPancreatic β-cellsATP transportCassette transportersConductance regulatorTransporter functionTransporter moleculesBiological significanceATP sensorATPAgonist functionTransportersRelease of ATPΒ-cellsPowerful approachRegulator
1995
CFTR regulates outwardly rectifying chloride channels through an autocrine mechanism involving ATP
Schwiebert E, Egan M, Hwang T, Fulmer S, Allen S, Cutting G, Guggino W. CFTR regulates outwardly rectifying chloride channels through an autocrine mechanism involving ATP. Cell 1995, 81: 1063-1073. PMID: 7541313, DOI: 10.1016/s0092-8674(05)80011-x.Peer-Reviewed Original ResearchConceptsUnknown regulatory mechanismCystic fibrosis transmembrane conductance regulator (CFTR) functionRegulatory mechanismsConductance regulatorCl- secretory pathwaySignaling mechanismShort-circuit current recordingsRegulator functionCFTR functionChloride channelsCellular mechanismsSingle-channel patch-clamp recordingsCFTRCl- channelsEpithelial cellsATPAutocrine mechanismCurrent recordingsORCCPathwayCF airwaysPatch-clamp recordingsCellsMechanismRegulator