1986
Acetylcholine induces burst firing in thalamic reticular neurones by activating a potassium conductance
McCormick D, Prince D. Acetylcholine induces burst firing in thalamic reticular neurones by activating a potassium conductance. Nature 1986, 319: 402-405. PMID: 2418361, DOI: 10.1038/319402a0.Peer-Reviewed Original ResearchConceptsNeuronal activityCholinergic inhibitory mechanismSingle spike activityRole of acetylcholineApplication of acetylcholineCentral nervous systemIntrinsic membrane propertiesAcetylcholine inducesM2 subclassCholinergic actionCholinergic inhibitionCholinergic inputMuscarinic receptorsBurst dischargesExcitatory modulatorThalamic neuronesNervous systemSpike activityFiring patternsPotassium conductanceReticular neuronesAcetylcholineNeuronesReticular systemInhibitory mechanism
1985
Two types of muscarinic response to acetylcholine in mammalian cortical neurons.
McCormick D, Prince D. Two types of muscarinic response to acetylcholine in mammalian cortical neurons. Proceedings Of The National Academy Of Sciences Of The United States Of America 1985, 82: 6344-6348. PMID: 3862134, PMCID: PMC391050, DOI: 10.1073/pnas.82.18.6344.Peer-Reviewed Original ResearchConceptsGamma-aminobutyric acidInput resistanceMuscarinic responsesPyramidal neuronsPyramidal cellsInhibitory neurotransmitter gamma-aminobutyric acidNeurotransmitter gamma-aminobutyric acidShort-latency depolarizationsShort-latency inhibitionMammalian cortical neuronsNeuronal input resistanceSlow excitatory responsesApplication of acetylcholineVoltage-dependent depolarizationCholinergic inhibitionExcitatory responsesCholinergic receptorsVoltage-dependent increaseCortical slicesGABAergic interneuronsNicotinic antagonistsCholinergic agonistsCortical neuronsSlow depolarizationNeocortical neurons