Search results for "TRANSMITTER RELEASE"

showing 2 items of 2 documents

Characterization of the muscarinic receptor subtype(s) mediating contraction of the guinea-pig lung strip and inhibition of acetylcholine release in …

1997

1 The muscarinic receptor subtypes mediating contraction of the guinea-pig lung strip and inhibition of the release of acetylcholine from cholinergic vagus nerve endings in the guinea-pig trachea in vitro have previously been characterized as M-2-like, i.e. having antagonist affinity profiles that are qualitatively similar but quantitatively dissimilar compared to cardiac M-2 receptors. The present study sought to establish definitely the identity of these receptor subtypes by using the selective muscarinic receptor antagonist, tripitramine. Guinea-pig atria and guinea-pig trachea (postjunctional contractile response) were included for reference.2 It was found that tripitramine antagonized …

MaleAUTORECEPTORSlung strip guinea-pigsubtypes ofatria guinea-pigBenzodiazepinesFUNCTIONAL-CHARACTERIZATIONMuscarinic acetylcholine receptorReceptorLungAIRWAYSeducation.field_of_studyguinea-pigSMOOTH-MUSCLEMuscarinic acetylcholine receptor M3Muscarinic acetylcholine receptor M2METHOCTRAMINE-RELATED TETRAAMINESAtrial FunctionReceptors MuscarinicSchild regressionTracheaDepression ChemicalPapersHEARTFemaleAcetylcholineBINDING-PROPERTIESmedicine.drugMuscle Contractionmedicine.medical_specialtyCardiotonic Agentstrachea guinea-piglung stripPopulationGuinea PigsMuscarinic AntagonistsBiologyTritiummuscarinic receptorRABBITInternal medicinemedicineAnimalsNEUROTRANSMITTER RELEASEHeart AtriaeducationAcetylcholine receptorPharmacologyprejunctional muscarinic autoreceptorMuscle SmoothMyocardial ContractionAcetylcholineElectric StimulationEndocrinologyatriaCELLSBritish journal of pharmacology
researchProduct

Role of calcineurin in Ca2+-induced release of catecholamines and neuropeptides

1998

Neurotransmission requires rapid docking, fusion, and recycling of neurotransmitter vesicles. Several of the proteins involved in this complex Ca2+-regulated mechanism have been identified as substrates for protein kinases and phosphatases, e.g., the synapsins, synaptotagmin, rabphilin3A, synaptobrevin, munc18, MARCKS, dynamin I, and B-50/GAP-43. So far most attention has focused on the role of kinases in the release processes, but recent evidence indicates that phosphatases may be as important. Therefore, we investigated the role of the Ca2+/calmodulin-dependent protein phosphatase calcineurin in exocytosis and subsequent vesicle recycling. Calcineurin-neutralizing antibodies, which blocke…

MaleSynaptobrevinCYCLOSPORINE-APhosphataseCalcineurin InhibitorsB-50 GAP-43Biologydynamin IBiochemistryBRAIN NERVE-TERMINALSExocytosisSynaptotagmin 1SincalidephosphataseGeneeskundeCellular and Molecular NeuroscienceNorepinephrineBacterial ProteinsPERMEATED SYNAPTOSOMESAnimalsratNEUROTRANSMITTER RELEASEMARCKSEnzyme InhibitorsRats WistarPROTEIN-KINASE-CDynaminCalcineurinTRANSMITTER RELEASEDYNAMIN-ISynapsinPhosphoric Monoester HydrolasesRatsINDUCED NORADRENALINE RELEASECalcineurinBiochemistryImmunoglobulin GStreptolysinsCalciumexocytosisCALMODULIN-BINDINGSynaptosomes
researchProduct