2003
Comparative physiological and serotoninergic properties of pulvinar neurons in the monkey, cat and ferret
Monckton J, McCormick D. Comparative physiological and serotoninergic properties of pulvinar neurons in the monkey, cat and ferret. Thalamus & Related Systems 2003, 2: 239-252. DOI: 10.1016/s1472-9288(03)00022-0.Peer-Reviewed Original ResearchApplication of serotoninThalamocortical neuronsLow-threshold Ca2Pulvinar neuronsThreshold Ca2Hyperpolarization-activated cation currentSingle spike activityBasic electrophysiological propertiesDistinct firing modesProminent hyperpolarizationMembrane potassium conductanceSerotoninergic propertiesSignificant species-dependent differencesSpike activityCation currentMonkey neuronsElectrophysiological propertiesPotassium conductanceNeuronsPharmacological propertiesSerotoninMonkeysCatsPulvinarSpecies-dependent differences
1995
Acetylcholine excites GABAergic neurons of the ferret perigeniculate nucleus through nicotinic receptors
Lee K, McCormick D. Acetylcholine excites GABAergic neurons of the ferret perigeniculate nucleus through nicotinic receptors. Journal Of Neurophysiology 1995, 73: 2123-2128. PMID: 7623105, DOI: 10.1152/jn.1995.73.5.2123.Peer-Reviewed Original ResearchConceptsAction of acetylcholineSingle spike activityPerigeniculate nucleusPGN cellsGABAergic neuronsSpike activityLocal applicationDirect postsynaptic actionFerret thalamic slicesNicotinic antagonist hexamethoniumIntracellular recording techniquesAction potential firingLow-threshold Ca2Slow hyperpolarizing responseVitro. 2Antagonist hexamethoniumMembrane conductancePostsynaptic actionsGABAergic cellsMuscarinic antagonistMuscarinic receptorsDepolarizing responsePGN neuronsHyperpolarizing responseSynaptic transmission
1993
Mechanisms of oscillatory activity in guinea‐pig nucleus reticularis thalami in vitro: a mammalian pacemaker.
Bal T, McCormick D. Mechanisms of oscillatory activity in guinea‐pig nucleus reticularis thalami in vitro: a mammalian pacemaker. The Journal Of Physiology 1993, 468: 669-691. PMID: 8254530, PMCID: PMC1143849, DOI: 10.1113/jphysiol.1993.sp019794.Peer-Reviewed Original ResearchConceptsLow-threshold Ca2Nucleus reticularis thalamiRhythmic burst firingThreshold Ca2Reticularis thalamiBurst firingExtracellular Ca2Action potentialsOscillatory activityShort-latency burstsSingle spike activityVitro. 2Fast action potentialsNon-selective cationSlow ADPThalamic afferentsTonic dischargeNRT cellsIntracellular recordingsIntracellular injectionSpike AHPsSpike activitySingle neuronesExtracellular applicationReversal potential
1990
Functional implications of burst firing and single spike activity in lateral geniculate relay neurons
McCormick D, Feeser H. Functional implications of burst firing and single spike activity in lateral geniculate relay neurons. Neuroscience 1990, 39: 103-113. PMID: 2089273, DOI: 10.1016/0306-4522(90)90225-s.Peer-Reviewed Original ResearchConceptsExcitatory postsynaptic potentialsAction potentialsSingle-spike modeThalamic neuronsPostsynaptic potentialsRelay neuronsRhythmic burstsExcitatory inputsLateral geniculate relay neuronsGeniculate relay neuronsPhasic excitatory inputPeripheral receptive fieldsSingle spike activityPeriods of drowsinessLow-threshold Ca2Slow-wave sleepThalamocortical relay neuronsIncoming excitatory inputsHigh-frequency burstsFiring modesNeuronal activityWave sleepSpike activityThreshold Ca2Neurons
1989
Noradrenaline and serotonin selectively modulate thalamic burst firing by enhancing a hyperpolarization-activated cation current
Pape H, McCormick D. Noradrenaline and serotonin selectively modulate thalamic burst firing by enhancing a hyperpolarization-activated cation current. Nature 1989, 340: 715-718. PMID: 2475782, DOI: 10.1038/340715a0.Peer-Reviewed Original ResearchConceptsThalamic neuronsRhythmic burstsAction potentialsHyperpolarization-activated cation currentSingle spike activityGenerate action potentialsSlow-wave sleepSingle-spike firingState of excitabilityAction potential generationSerotonergic inputNeurons displaySynaptic processingSpike activityCation currentThalamic burstsSpike firingNoradrenalineSerotoninCellular mechanismsNeuronsRhythmic oscillationsNovel actionBehavioral statesCyclic AMP
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