2004
Histamine modulates thalamocortical activity by activating a chloride conductance in ferret perigeniculate neurons
Lee K, Broberger C, Kim U, McCormick D. Histamine modulates thalamocortical activity by activating a chloride conductance in ferret perigeniculate neurons. Proceedings Of The National Academy Of Sciences Of The United States Of America 2004, 101: 6716-6721. PMID: 15096604, PMCID: PMC404111, DOI: 10.1073/pnas.0400817101.Peer-Reviewed Original ResearchConceptsApplication of histamineGamma-aminobutyric acidPerigeniculate nucleusGABAergic neuronsSingle spike activityMammalian central nervous systemCentral nervous systemHistaminergic actionPerigeniculate neuronsHistaminergic fibersHistaminergic systemHistaminergic receptorsTuberomammillary nucleusIontophoretic applicationPostsynaptic factorsThalamocortical activityInhibitory responsesNeuronal activityThalamic oscillationsNervous systemHistamineMembrane hyperpolarizationSpindle wavesIonotropic receptorsReversal potential
1987
Acetylcholine causes rapid nicotinic excitation in the medial habenular nucleus of guinea pig, in vitro
McCormick D, Prince D. Acetylcholine causes rapid nicotinic excitation in the medial habenular nucleus of guinea pig, in vitro. Journal Of Neuroscience 1987, 7: 742-752. PMID: 3549993, PMCID: PMC6569057, DOI: 10.1523/jneurosci.07-03-00742.1987.Peer-Reviewed Original ResearchConceptsMedial habenular nucleusInhibitory responsesMHb neuronsNicotinic receptorsHabenular nucleusACh-induced depolarizationMuscarinic antagonist atropineNicotinic antagonist hexamethoniumIntracellular recording techniquesEffects of AChAction of AChApplication of AChNicotinic agonist nicotineApplication of glutamateAverage reversal potentialNicotinic excitationNicotinic typePostexcitatory inhibitionAntagonist atropineAntagonist hexamethoniumMembrane conductanceACh actionACh responseCentral effectsCholinergic transmission
1986
Mechanisms of action of acetylcholine in the guinea‐pig cerebral cortex in vitro.
McCormick D, Prince D. Mechanisms of action of acetylcholine in the guinea‐pig cerebral cortex in vitro. The Journal Of Physiology 1986, 375: 169-194. PMID: 2879035, PMCID: PMC1182754, DOI: 10.1113/jphysiol.1986.sp016112.Peer-Reviewed Original ResearchConceptsNon-pyramidal cellsSlow excitatory responsesPyramidal neuronesMechanism of actionAction potentialsExcitatory responsesInhibitory responsesACh applicationGuinea pig cerebral cortexLayer V pyramidal cellsInhibitory post-synaptic potentialsGABAergic synaptic transmissionRelease of GABAShort-latency excitationSlow depolarizing responseApparent input resistanceACh-induced hyperpolarizationApplication of acetylcholineGamma-aminobutyric acidGuinea pig neocortexPost-synaptic potentialsAverage reversal potentialBarrages of excitatoryMinimum onset latencyAction potential generation