Neuromodulatory transmitter systems in the cortex and their role in cortical plasticity

[1]  C. Waeber,et al.  [3H]sumatriptan labels both 5-HT1D and 5-HT1F receptor binding sites in the guinea pig brain: an autoradiographic study , 1995, Naunyn-Schmiedeberg's Archives of Pharmacology.

[2]  B. Gordon,et al.  6-Hydroxydopamine treatment and beta adrenergic receptor binding in kittens , 1988, Experimental Brain Research.

[3]  I. Engberg,et al.  The modulation of excitatory amino acid responses by serotonin in the cat neocortexin vitro , 1987, Cellular and Molecular Neurobiology.

[4]  Y. Takeuchi,et al.  Serotonin nerve fibers in the primary visual cortex of the monkey , 1984, Anatomy and Embryology.

[5]  Y. Takeuchi,et al.  Immunohistochemical demonstration of serotonin nerve fibers in the neocortex of the monkey (Macaca fuscata) , 2004, Anatomy and Embryology.

[6]  T. Kasamatsu,et al.  Ocular dominance plasticity restored by NA infusion to aplastic visual cortex of anesthetized and paralyzed kittens , 2004, Experimental Brain Research.

[7]  W. Singer,et al.  The laminar distribution and postnatal development of serotonin-immunoreactive axons in the cat primary visual cortex , 2004, Experimental Brain Research.

[8]  N. Daw,et al.  Evidence for a nicotinic component to the actions of acetylcholine in cat visual cortex , 2004, Experimental Brain Research.

[9]  T. Kasamatsu,et al.  Reduced binocularity in the noradrenaline-infused striate cortex of acutely anesthetized and paralyzed, otherwise normal cats , 2004, Experimental Brain Research.

[10]  T. Kasamatsu,et al.  Reemergence of ocular dominance plasticity during recovery from the effects of propranolol infused in kitten visual cortex , 2004, Experimental Brain Research.

[11]  R. Dykes,et al.  Long-term enhancement of evoked potentials in cat somatosensory cortex produced by co-activation of the basal forebrain and cutaneous receptors , 2004, Experimental Brain Research.

[12]  N. Daw,et al.  Substantial reduction of noradrenaline in kitten visual cortex by intraventricular injections of 6-hydroxydopamine does not always prevent ocular dominance shifts after monocular deprivation , 2004, Experimental Brain Research.

[13]  T. Kasamatsu,et al.  Involvement of β-adrenoreceptors in the shift of ocular dominance after monocular deprivation , 2004, Experimental Brain Research.

[14]  N. Daw,et al.  Cyclic AMP-dependent protein kinase mediates ocular dominance shifts in cat visual cortex , 2001, Nature Neuroscience.

[15]  Naoum P. Issa,et al.  The Critical Period for Ocular Dominance Plasticity in the Ferret’s Visual Cortex , 1999, The Journal of Neuroscience.

[16]  T. Kasamatsu,et al.  Restoration of ocular dominance plasticity mediated by adenosine 3',5'–monophosphate in adult visual cortex , 1999, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[17]  M. Bear,et al.  Modulation of Long-Term Synaptic Depression in Visual Cortex by Acetylcholine and Norepinephrine , 1999, The Journal of Neuroscience.

[18]  M. Dimyan,et al.  Basal forebrain stimulation induces discriminative receptive field plasticity in the auditory cortex. , 1999, Behavioral neuroscience.

[19]  A. Rivera,et al.  Differential regional and cellular distribution of dopamine D2‐like receptors: An immunocytochemical study of subtype‐specific antibodies in rat and human brain , 1998, The Journal of comparative neurology.

[20]  R. Rhoades,et al.  Effect of activity blockade on changes in vibrissae‐related patterns in the rat's primary somatosensory cortex induced by serotonin depletion , 1998, The Journal of comparative neurology.

[21]  R. Dykes,et al.  Blockade of cholinergic receptors in rat barrel cortex prevents long-term changes in the evoked potential during sensory preconditioning. , 1998, Journal of neurophysiology.

[22]  M. Dimyan,et al.  Induction of long-term receptive field plasticity in the auditory cortex of the waking guinea pig by stimulation of the nucleus basalis. , 1998, Behavioral neuroscience.

[23]  F. Ebner,et al.  Somatosensory Cortical Plasticity Role of the Basal Forebrain Cholinergic Projection in , 1998 .

[24]  J. Desce,et al.  Dopamine facilitates long-term depression of glutamatergic transmission in rat prefrontal cortex , 1998, Neuroscience.

[25]  M. Kilgard,et al.  Cortical map reorganization enabled by nucleus basalis activity. , 1998, Science.

[26]  W. Miltner,et al.  Reorganization of the somatosensory cortex after amputation of the index finger , 1998, Neuroreport.

[27]  P S Goldman-Rakic,et al.  5-Hydroxytryptamine2A serotonin receptors in the primate cerebral cortex: possible site of action of hallucinogenic and antipsychotic drugs in pyramidal cell apical dendrites. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[28]  P S Goldman-Rakic,et al.  Layer V neurons bear the majority of mRNAs encoding the five distinct dopamine receptor subtypes in the primate prefrontal cortex , 1998, Synapse.

[29]  L. JakabR,et al.  霊長類大脳皮質の5‐ヒドロキシトリプタミン2Aセロトニン受容体 錐体細胞先端樹状突起での幻覚剤及び抗精神病剤の作用部位 , 1998 .

[30]  X. Zhu,et al.  Cholinergic depletion reduces plasticity of barrel field cortex. , 1998, Cerebral cortex.

[31]  K. Davis,et al.  Dopamine receptor transcript expression in striatum and prefrontal and occipital cortex. Focal abnormalities in orbitofrontal cortex in schizophrenia. , 1997, Archives of general psychiatry.

[32]  J. Morrison,et al.  Expression of Dopamine D3 Receptor Dimers and Tetramers in Brain and in Transfected Cells* , 1997, The Journal of Biological Chemistry.

[33]  L. C. Katz,et al.  Fast Synaptic Signaling by Nicotinic Acetylcholine and Serotonin 5-HT3 Receptors in Developing Visual Cortex , 1997, The Journal of Neuroscience.

[34]  L. C. Katz,et al.  Modulation of Intrinsic Circuits by Serotonin 5-HT3Receptors in Developing Ferret Visual Cortex , 1997, The Journal of Neuroscience.

[35]  A. Deutch,et al.  Serotonin 5‐HT2A receptors are expressed on pyramidal cells and interneurons in the rat cortex , 1997, Synapse.

[36]  K. Baskerville,et al.  Effects of cholinergic depletion on experience-dependent plasticity in the cortex of the rat , 1997, Neuroscience.

[37]  M. Bouthenet,et al.  Detailed mapping of the histamine H2 receptor and its gene transcripts in guinea-pig brain , 1997, Neuroscience.

[38]  M. Cynader,et al.  Serotonin facilitates synaptic plasticity in kitten visual cortex: an in vitro study. , 1997, Brain research. Developmental brain research.

[39]  M. Kossut,et al.  Neonatal serotonin depletion modifies development but not plasticity in rat barrel cortex , 1997, Neuroreport.

[40]  M. Cynader,et al.  Blockade of serotonin-2C receptors by mesulergine reduces ocular dominance plasticity in kitten visual cortex , 1997, Experimental Brain Research.

[41]  N. Lavine,et al.  A population of nicotinic receptors is associated with thalamocortical afferents in the adult rat: Laminal and areal analysis , 1997, The Journal of comparative neurology.

[42]  G. Martin,et al.  5-HT Receptor Classification and Nomenclature: Towards a Harmonization with the Human Genome , 1997, Neuropharmacology.

[43]  L. Lanfumey,et al.  Immuno-localization of serotonin 5-HT6 receptor-like material in the rat central nervous system , 1997, Brain Research.

[44]  V. M. Storozhuk,et al.  Interaction of glutamatergic and adrenergic inputs of cortical neurons during conditioning , 1996, Neuroscience.

[45]  J. Bakin,et al.  Induction of a physiological memory in the cerebral cortex by stimulation of the nucleus basalis. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[46]  D. Uhlrich,et al.  Histamine‐immunoreactive neurons and their innervation of visual regions in the cortex, tectum, and thalamus in the primate Macaca mulatta , 1996, The Journal of comparative neurology.

[47]  J. Spiess,et al.  Histamine slows the onset of desensitization of rat cortical NMDA receptors , 1996, Neuroreport.

[48]  F. Bloom,et al.  The type 3 serotonin receptor is expressed in a subpopulation of GABAergic neurons in the rat neocortex and hippocampus , 1996, Brain Research.

[49]  J. Sutcliffe,et al.  The 5‐HT5A serotonin receptor is expressed predominantly by astrocytes in which it inhibits cAMP accumulation: A mechanism for neuronal suppression of reactive astrocytes , 1996, Glia.

[50]  P. Goldman-Rakic,et al.  Localization of dopamine D4 receptors in GABAergic neurons of the primate brain , 1996, Nature.

[51]  M P Stryker,et al.  Experience-Dependent Plasticity of Binocular Responses in the Primary Visual Cortex of the Mouse , 1996, The Journal of Neuroscience.

[52]  T. Branchek,et al.  A receptor autoradiographic and in situ hybridization analysis of the distribution of the 5‐ht7 receptor in rat brain , 1996, British journal of pharmacology.

[53]  Patricia Gaspar,et al.  Lack of Barrels in the Somatosensory Cortex of Monoamine Oxidase A–Deficient Mice: Role of a Serotonin Excess during the Critical Period , 1996, Neuron.

[54]  C. Aoki,et al.  Cellular and subcellular distribution of α2A‐adrenergic receptors in the visual cortex of neonatal and adult rats , 1996 .

[55]  R. Dykes,et al.  Transient and long-lasting effects of iontophoretically administered norepinephrine on somatosensory cortical neurons in halothane-anesthetized cats. , 1996, Canadian journal of physiology and pharmacology.

[56]  R. Rhoades,et al.  Fenfluramine depletes serotonin from the developing cortex and alters thalamocortical organization , 1995, Brain Research.

[57]  P. Goldman-Rakic,et al.  Regional, cellular, and subcellular variations in the distribution of D1 and D5 dopamine receptors in primate brain , 1995, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[58]  H. Lübbert,et al.  Expression of serotonin receptor mRNAs in blood vessels , 1995, FEBS letters.

[59]  P. Goldman-Rakic,et al.  Modulation of memory fields by dopamine Dl receptors in prefrontal cortex , 1995, Nature.

[60]  T. Watanabe,et al.  Ontogenetic development of histamine receptor subtypes in rat brain demonstrated by quantitative autoradiography. , 1995, Brain research. Developmental brain research.

[61]  G. Sedvall,et al.  Distribution of messenger RNAs for D1 dopamine receptors and DARPP-32 in striatum and cerebral cortex of the cynomolgus monkey: Relationship to D1 dopamine receptors , 1995, Neuroscience.

[62]  W Singer,et al.  Involvement of Serotonin in Developmental Plasticity of Kitten Visual Cortex , 1995, The European journal of neuroscience.

[63]  P. Gaspar,et al.  D1 and D2 Receptor Gene Expression in the Rat Frontal Cortex: Cellular Localization in Different Classes of Efferent Neurons , 1995, The European journal of neuroscience.

[64]  R. Eglen,et al.  Characterization and distribution of putative 5‐ht7 receptors in guinea‐pig brain , 1995, British journal of pharmacology.

[65]  Paul J. Harrison,et al.  The distribution of 5-HT1A and 5-HT2A receptor mRNA in human brain , 1995, Brain Research.

[66]  M. Lidow,et al.  Adrenergic and serotonergic receptors in aged monkey neocortex , 1995, Neurobiology of Aging.

[67]  C. Bennett-Clarke,et al.  Effect of serotonin depletion on vibrissa-related patterns of thalamic afferents in the rat's somatosensory cortex , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[68]  M. Cynader,et al.  Development and regulation of alpha adrenoceptors in kitten visual cortex , 1994, Neuroscience.

[69]  M. Cynader,et al.  Postnatal development and laminar distribution of noradrenergic fibers in cat visual cortex. , 1994, Brain research. Developmental brain research.

[70]  K. Williams Subunit-specific potentiation of recombinant N-methyl-D-aspartate receptors by histamine. , 1994, Molecular pharmacology.

[71]  D. Grandy,et al.  Dopamine Receptor Gene Expression in the Human Medial Temporal Lobe , 1994, Neuropsychopharmacology.

[72]  P S Goldman-Rakic,et al.  D1 dopamine receptor immunoreactivity in human and monkey cerebral cortex: predominant and extrasynaptic localization in dendritic spines. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[73]  H. Ladinsky,et al.  5-HT4 receptor stimulation facilitates acetylcholine release in rat frontal cortex. , 1994, Neuroreport.

[74]  M. Pompeiano,et al.  Distribution of the serotonin 5-HT2 receptor family mRNAs: comparison between 5-HT2A and 5-HT2C receptors. , 1994, Brain research. Molecular brain research.

[75]  B. Malinowska,et al.  Modulation of neurotransmitter release via histamine H3 heteroreceptors , 1994, Fundamental & clinical pharmacology.

[76]  J. Coyle,et al.  Cholinergic innervation of mouse forebrain structures , 1994, The Journal of comparative neurology.

[77]  P. Barone,et al.  Quantitative autoradiography of 5-HT1D and 5-HT1E binding sites labelled by [3H]5-HT, in frontal cortex and the hippocampal region of the human brain , 1994, Brain Research.

[78]  H. Loos,et al.  Monoaminergic afferents to cortex modulate structural plasticity in the barrelfield of the mouse. , 1994, Brain research. Developmental brain research.

[79]  R. Leurs,et al.  Guinea Pig Histamine H1 Receptor. I. Gene Cloning, Characterization, and Tissue Expression Revealed by In Situ Hybridization , 1994, Journal of neurochemistry.

[80]  K. Albus,et al.  Structural and Functional Organization of the Neocortex , 1994 .

[81]  M. Cynader,et al.  Development and regulation of β adrenergic receptors in kitten visual cortex: An immunocytochemical and autoradiographic study , 1993, Brain Research.

[82]  P. Barone,et al.  Quantitative autoradiography of 5-HT1E binding sites in rodent brains: effect of lesion of serotonergic neurones. , 1993, European journal of pharmacology.

[83]  H. Haas,et al.  Histamine potentiates N-methyl-d-aspartate responses in acutely isolated hippocampal neurons , 1993, Neuron.

[84]  T. Robbins,et al.  Distribution of seven major neurotransmitter receptors in the striate cortex of the new world monkey callithrix jacchus , 1993, Neuroscience.

[85]  M. Cynader,et al.  Autoradiographic localization of serotonin receptor subtypes in cat visual cortex: transient regional, laminar, and columnar distributions during postnatal development , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[86]  J. Bockaert,et al.  [3H]-GR113808 labels 5-HT4 receptors in the human and guinea-pig brain. , 1993, Neuroreport.

[87]  D. McCormick,et al.  Neurotransmitter control of neocortical neuronal activity and excitability. , 1993, Cerebral cortex.

[88]  J. Bekkers Enhancement by histamine of NMDA-mediated synaptic transmission in the hippocampus. , 1993, Science.

[89]  Gavin Kilpatrick,et al.  Development of a radioligand binding assay for 5‐HT4 receptors in guinea‐pig and rat brain , 1993, British journal of pharmacology.

[90]  P S Goldman-Rakic,et al.  Association of m1 and m2 muscarinic receptor proteins with asymmetric synapses in the primate cerebral cortex: morphological evidence for cholinergic modulation of excitatory neurotransmission. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[91]  W. Singer,et al.  Effects of Intracortical Infusion of Anticholinergic Drugs on Neuronal Plasticity in Kitten Striate Cortex , 1993, The European journal of neuroscience.

[92]  Low-affinity nerve growth factor receptor (p75NGFR)- and choline acetyltransferase (ChAT)-immunoreactive axons in the cerebral cortex and hippocampus of adult macaque monkeys and humans. , 1993, Cerebral cortex.

[93]  R. Yasuda,et al.  Development of antisera selective for m4 and m5 muscarinic cholinergic receptors: distribution of m4 and m5 receptors in rat brain. , 1993, Molecular pharmacology.

[94]  J. Schwartz,et al.  A detailed autoradiographic mapping of histamine H3 receptors in rat brain areas , 1993, Neuroscience.

[95]  P. Sargent,et al.  The diversity of neuronal nicotinic acetylcholine receptors. , 1993, Annual review of neuroscience.

[96]  L Maffei,et al.  Nerve growth factor (NGF) prevents the shift in ocular dominance distribution of visual cortical neurons in monocularly deprived rats , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[97]  J. Morrison,et al.  Localization of multiple dopamine receptor subtype mRNAs in human and monkey motor cortex and striatum. , 1992, Brain research. Molecular brain research.

[98]  R. Rhoades,et al.  Serotonin 1B receptors form a transient vibrissa-related pattern in the primary somatosensory cortex of the developing rat. , 1992, Brain research. Developmental brain research.

[99]  P. Rakić,et al.  Scheduling of monoaminergic neurotransmitter receptor expression in the primate neocortex during postnatal development. , 1992, Cerebral cortex.

[100]  K. Imamura,et al.  l-Threo-3,4-Dihydroxyphenylserine enhanced ocular dominance plasticity in adult cats , 1992, Neuroscience Letters.

[101]  C. Cepeda,et al.  Differential modulation by dopamine of responses evoked by excitatory amino acids in human cortex , 1992, Synapse.

[102]  P S Goldman-Rakic,et al.  Light and electron microscopic characterization of dopamine‐immunoreactive axons in human cerebral cortex , 1992, The Journal of comparative neurology.

[103]  Changiz Geula,et al.  Differential cholinergic innervation within functional subdivisions of the human cerebral cortex: A choline acetyltransferase study , 1992, The Journal of comparative neurology.

[104]  Dzung H. Vu,et al.  Differential development of the dual serotoninergic fiber system in the cerebral cortex of the cat , 1992, The Journal of comparative neurology.

[105]  I. Lucki 5-HT1 receptors and behavior , 1992, Neuroscience & Biobehavioral Reviews.

[106]  C. Aoki Beta-adrenergic receptors: astrocytic localization in the adult visual cortex and their relation to catecholamine axon terminals as revealed by electron microscopic immunocytochemistry , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[107]  W. Singer,et al.  Agonists of cholinergic and noradrenergic receptors facilitate synergistically the induction of long-term potentiation in slices of rat visual cortex , 1992, Brain Research.

[108]  H. Markram,et al.  The inositol 1,4,5‐trisphosphate pathway mediates cholinergic potentiation of rat hippocampal neuronal responses to NMDA. , 1992, The Journal of physiology.

[109]  Rex Y. Wang,et al.  Action of serotonin in the medial prefrontal cortex: Mediation by serotonin3‐like receptors , 1992, Synapse.

[110]  P. Goldman-Rakic,et al.  The anatomy of dopamine in monkey and human prefrontal cortex. , 1992, Journal of neural transmission. Supplementum.

[111]  J. Fozard,et al.  The 5-HT4 receptor: a place in the sun. , 1992, Trends in pharmacological sciences.

[112]  T. Voigt,et al.  Serotoninergic innervation of the ferret cerebral cortex. I. Adult pattern , 1991, The Journal of comparative neurology.

[113]  Anat Biegon,et al.  Fetal human brain exhibits a prenatal peak in the density of serotonin 5-HT1A receptors , 1991, Neuroscience Letters.

[114]  R. Dykes,et al.  Long-term enhancement of evoked potentials in raccoon somatosensory cortex following co-activation of the nucleus basalis of Meynert complex and cutaneous receptors , 1991, Brain Research.

[115]  R. Miledi,et al.  Receptors of the serotonin 1C subtype expressed from cloned DNA mediate the closing of K+ membrane channels encoded by brain mRNA. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[116]  A. Levey,et al.  D1 and D2 dopamine receptor mRNA in rat brain. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[117]  J. DeFelipe,et al.  Synaptic relationships of serotonin-immunoreactive terminal baskets on GABA neurons in the cat auditory cortex. , 1991, Cerebral cortex.

[118]  P. Somogyi,et al.  Enrichment of cholinergic synaptic terminals on GABAergic neurons and coexistence of immunoreactive GABA and choline acetyltransferase in the same synaptic terminals in the striate cortex of the cat , 1991, The Journal of comparative neurology.

[119]  S. Juliano,et al.  Cholinergic depletion prevents expansion of topographic maps in somatosensory cortex. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[120]  J. Schwartz,et al.  Histaminergic transmission in the mammalian brain. , 1991, Physiological reviews.

[121]  R. Dykes,et al.  Basal forebrain lesions with or without reserpine injection inhibit cortical reorganization in rat hindpaw primary somatosensory cortex following sciatic nerve section. , 1991, Somatosensory & motor research.

[122]  S. Peroutka Serotonin receptor subtypes : basic and clinical aspects , 1991 .

[123]  U. Pirvola,et al.  A histamine-containing neuronal system in human brain , 1990, Neuroscience.

[124]  P. Goldman-Rakic,et al.  Autoradiographic comparison of D1-specific binding of [3H]SCH39166 and SCH23390 in the primate cerebral cortex , 1990, Brain Research.

[125]  Norman M. Weinberger,et al.  Classical conditioning induces CS-specific receptive field plasticity in the auditory cortex of the guinea pig , 1990, Brain Research.

[126]  G. Prusky,et al.  The distribution of M1 and M2 muscarinic acetylcholine receptor subtypes in the developing cat visual cortex. , 1990, Brain research. Developmental brain research.

[127]  J. Schwartz,et al.  Three histamine receptors (H1, H2 and H3) visualized in the brain of human and non-human primates , 1990, Brain Research.

[128]  I. Törk,et al.  Distribution of two morphologically distinct subsets of serotoninergic axons in the cerebral cortex of the marmoset , 1990, The Journal of comparative neurology.

[129]  W Singer,et al.  Excitatory amino acid receptors and synaptic plasticity. , 1990, Trends in pharmacological sciences.

[130]  Donald J. Woodward,et al.  Modulation of rat cortical area 17 neuronal responses to moving visual stimuli during norepinephrine and serotonin microiontophoresis , 1990, Brain Research.

[131]  M. Bouthenet,et al.  Reversible and irreversible labeling and autoradiographic localization of the cerebral histamine H2 receptor using [125I]iodinated probes. , 1990, Proceedings of the National Academy of Sciences of the United States of America.

[132]  N. Weinberger,et al.  Cholinergic modulation of responses to single tones produces tone‐specific receptive field alterations in cat auditory cortex , 1990, Synapse.

[133]  U. Pirvola,et al.  Histamine-immunoreactive nerve fibers in the rat brain , 1989, Neuroscience.

[134]  D. Geschwind,et al.  Distribution of major neurotransmitter receptors in the motor and somatosensory cortex of the rhesus monkey , 1989, Neuroscience.

[135]  P S Goldman-Rakic,et al.  Regional differences in the distribution of muscarinic cholinergic receptors in the macaque cerebral cortex , 1989, The Journal of comparative neurology.

[136]  J. L. Fuchs,et al.  [125I]α-Bungarotoxin binding marks primary sensory areas of developing rat neocortex , 1989, Brain Research.

[137]  D. McCormick,et al.  Convergence and divergence of neurotransmitter action in human cerebral cortex. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[138]  M. Frotscher,et al.  Central Cholinergic Synaptic Transmission , 1989, Experientia Supplementum.

[139]  E. Richfield,et al.  Comparative distributions of dopamine D‐1 and D‐2 receptors in the cerebral cortex of rats, cats, and monkeys , 1989, The Journal of comparative neurology.

[140]  P S Goldman-Rakic,et al.  Dopamine D2 receptors in the cerebral cortex: distribution and pharmacological characterization with [3H]raclopride. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[141]  T. Kasamatsu,et al.  Noradrenergic control of ocular dominance plasticity in the visual cortex of dark-reared cats. , 1989, Brain research. Developmental brain research.

[142]  T. Reader,et al.  Modulatory effects of catecholamines on neurons of the rat visual cortex: single-cell iontophoretic studies. , 1989, Canadian journal of physiology and pharmacology.

[143]  Wolf Singer,et al.  Acetylcholine-induced inhibition in the cat visual cortex is mediated by a GABAergic mechanism , 1989, Brain Research.

[144]  N. Weinberger,et al.  Acetylcholine produces stimulus-specific receptive field alterations in cat auditory cortex , 1989, Brain Research.

[145]  R. Buijs,et al.  Light and electron microscopic immunocytochemical analysis of the noradrenaline innervation of the rat visual cortex , 1989, Journal of neurocytology.

[146]  P. Schwindt,et al.  Norepinephrine selectively reduces slow Ca2+- and Na+-mediated K+ currents in cat neocortical neurons. , 1989, Journal of neurophysiology.

[147]  B. Berger,et al.  Catecholamine innervation of the human cerebral cortex as revealed by comparative immunohistochemistry of tyrosine hydroxylase and dopamine‐beta‐hydroxylase , 1989, The Journal of comparative neurology.

[148]  K. Zilles,et al.  Distribution of cholinergic receptors in the rat and human neocortex. , 1989, EXS.

[149]  W. Singer,et al.  The role of muscarinic acetylcholine receptors in ocular dominance plasticity. , 1989, EXS.

[150]  Laminar pattern of cholinergic and adrenergic receptors in rat visual cortex using quantitative receptor autoradiography. , 1989, Journal fur Hirnforschung.

[151]  N. Weinberger,et al.  Cholinergic modulation of frequency receptive fields in auditory cortex: II. Frequency‐specific effects of anticholinesterases provide evidence for a modulatory action of endogenous Ach , 1989, Synapse.

[152]  N. Weinberger,et al.  Cholinergic modulation of frequency receptive fields in auditory cortex: I. Frequency‐specific effects of muscarinic agonists , 1989, Synapse.

[153]  P. Panula,et al.  Development of histamine‐immunoreactive neurons in the rat brain , 1988, The Journal of comparative neurology.

[154]  W. Singer,et al.  Pharmacological induction of use-dependent receptive field modifications in the visual cortex. , 1988, Science.

[155]  P S Goldman-Rakic,et al.  Quantitative autoradiography of major neurotransmitter receptors in the monkey striate and extrastriate cortex , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[156]  F. Bloom,et al.  Synaptic organization of serotonin‐immunoreactive fibers in primary visual cortex of the macaque monkey , 1988, The Journal of comparative neurology.

[157]  N. Daw,et al.  Identification and localization of adrenergic receptors in cat visual cortex , 1988, Brain Research.

[158]  M. Bouthenet,et al.  A detailed mapping of hist amine H1-receptors in guinea-pig central nervous system established by autoradiography with [125I]iodobolpyramine , 1988, Neuroscience.

[159]  J. Reynolds,et al.  The effects of serotonin on N-methyl-d-aspartate and synaptically evoked depolarizations in rat neocortical neurons , 1988, Brain Research.

[160]  P. Panula,et al.  The histaminergic system in the guinea pig central nervous system: An immunocytochemical mapping study using an antiserum against histamine , 1988, The Journal of comparative neurology.

[161]  Y. Frégnac,et al.  A cellular analogue of visual cortical plasticity , 1988, Nature.

[162]  T. Kasamatsu,et al.  Acutely induced shift in ocular dominance during brief monocular exposure: Effects of cortical noradrenaline infusion , 1988, Neuroscience Letters.

[163]  M. Cynader,et al.  The distribution and ontogenesis of [3H]nicotine binding sites in cat visual cortex. , 1988, Brain research.

[164]  Michael B. Calford,et al.  Immediate and chronic changes in responses of somatosensory cortex in adult flying-fox after digit amputation , 1988, Nature.

[165]  R. Craik,et al.  The role of norepinephrine in adult rat somatosensory (SmI) cortical metabolism and plasticity , 1988, Brain Research.

[166]  Laurent Descarries,et al.  Ultrastructural features of dopamine axon terminals in the anteromedial and the suprarhinal cortex of adult rat , 1988, Brain Research.

[167]  R. Dykes,et al.  Neurons without demonstrable receptive fields outnumber neurons having receptive fields in samples from the somatosensory cortex of anesthetized or paralyzed cats and rats , 1988, Brain Research.

[168]  N. Weinberger,et al.  Muscarinic agonists modulate spontaneous and evoked unit discharge in auditory cortex of cat , 1988, Synapse.

[169]  H. Killackey,et al.  Choline acetyltransferase-immunoreactive neurons in fetal monkey cerebral cortex. , 1987, Brain research.

[170]  T. Tsumoto,et al.  A functional role of cholinergic innervation to neurons in the cat visual cortex. , 1987, Journal of neurophysiology.

[171]  M. Geffard,et al.  Immunocytochemical localization of dopamine in the prefrontal cortex of the rat at the light and electron microscopical level , 1987, Neuroscience.

[172]  T. Bonner,et al.  Identification of a family of muscarinic acetylcholine receptor genes. , 1987, Science.

[173]  S. Snyder,et al.  Ontogeny of the serotonergic projection to rat neocortex: transient expression of a dense innervation to primary sensory areas. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[174]  M. Cynader,et al.  Nicotine receptors are located on lateral geniculate nucleus terminals in cat visual cortex , 1987, Brain Research.

[175]  R. Buijs,et al.  Monoaminergic fibers form conventional synapses in the cerebral cortex , 1987, Neuroscience Letters.

[176]  J. Schwartz,et al.  Highly potent and selective ligands for histamine H3-receptors , 1987, Nature.

[177]  I. Kilpatrick,et al.  Dopaminergic innervation of the primary visual cortex in the rat, and some correlations with human cortex , 1987, Brain Research Bulletin.

[178]  W. Singer,et al.  Quantitative analysis of the choline acetyltransferase‐immunoreactive axonal network in the cat primary visual cortex: I. Adult cats , 1987, The Journal of comparative neurology.

[179]  J. Palacios,et al.  Serotonin receptors in the human brain—IV. Autoradiographic mapping of serotonin-2 receptors , 1987, Neuroscience.

[180]  W. Singer,et al.  A search for choline acetyltransferase-like immunoreactivity in neurons of cat striate cortex , 1987, Brain Research.

[181]  Z. Henderson Cholinergic innervation of ferret visual system , 1987, Neuroscience.

[182]  M. Martres,et al.  A detailed mapping of dopamine D-2 receptors in rat central nervous system by autoradiography with [125I]iodosulpride , 1987, Neuroscience.

[183]  B. Gordon,et al.  Effect of desmethylimipramine on norepinephrine content and plasticity of kitten visual cortex , 1987, Brain Research.

[184]  S. Foote,et al.  The distribution of tyrosine hydroxylase-immunoreactive fibers in primate neocortex is widespread but regionally specific , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[185]  S. Hill,et al.  Histamine receptors in the mammalian central nervous system: biochemical studies. , 1987, Progress in medicinal chemistry.

[186]  B. Kosofsky,et al.  The serotoninergic innervation of cerebral cortex: Different classes of axon terminals arise from dorsal and median raphe nuclei , 1987, Synapse.

[187]  P. Molinoff,et al.  Quantitative autoradiographic localization of the D1 and D2 subtypes of dopamine receptors in rat brain , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[188]  T. Kasamatsu,et al.  Concentration-dependent suppression by β-adrenergic antagonists of the shift in ocular dominance following monocular deprivation in kitten visual cortex , 1986, Neuroscience.

[189]  T. Dawson,et al.  D-1 dopamine receptors in the rat brain: a quantitative autoradiographic analysis , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[190]  C. Aoki,et al.  The ontogeny of the laminar distribution of beta-adrenergic receptors in the visual cortex of cats, normally reared and dark-reared. , 1986, Brain research.

[191]  P. Bradley,et al.  Proposals for the classification and nomenclature of functional receptors for 5-hydroxytryptamine , 1986, Neuropharmacology.

[192]  D. McCormick,et al.  Mechanisms of action of acetylcholine in the guinea‐pig cerebral cortex in vitro. , 1986, The Journal of physiology.

[193]  F. Eckenstein,et al.  Cholinergic neurons and fibres in the rat visual cortex , 1986, Journal of neurocytology.

[194]  T. Maeda,et al.  Postnatal development of serotonin nerve fibers in the somatosensory cortex of mice studied by immunohistochemistry , 1986, The Journal of comparative neurology.

[195]  W. Singer,et al.  Modulation of visual cortical plasticity by acetylcholine and noradrenaline , 1986, Nature.

[196]  C. Blaha,et al.  Doses of 6-hydroxydopamine sufficient to deplete norepinephrine are not sufficient to decrease plasticity in the visual cortex , 1986, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[197]  A. Nordberg,et al.  Regional [3H]acetylcholine and [3H]nicotine binding in developing mouse brain , 1985, International Journal of Developmental Neuroscience.

[198]  M. Martres,et al.  Localisation and pharmacological characterisation of D-2 dopamine receptors in rat cerebral neocortex and cerebellum using [125I]iodosulpride. , 1985, European journal of pharmacology.

[199]  J. Palacios,et al.  Quantitative autoradiographic mapping of serotonin receptors in the rat brain. I. Serotonin-1 receptors , 1985, Brain Research.

[200]  S. Nelson,et al.  Clonidine and cortical plasticity: possible evidence for noradrenergic involvement. , 1985, Brain research.

[201]  Y. Frégnac,et al.  Noradrenaline and functional plasticity in kitten visual cortex: a re‐examination. , 1985, The Journal of physiology.

[202]  D. McCormick,et al.  Two types of muscarinic response to acetylcholine in mammalian cortical neurons. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[203]  N. Daw,et al.  DSP-4 (N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine) depletes noradrenaline in kitten visual cortex without altering the effects of monocular deprivation , 1985, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[204]  T. Kasamatsu,et al.  Plasticity in cat visual cortex restored by electrical stimulation of the locus coeruleus , 1985, Neuroscience Research.

[205]  P. Clarke,et al.  Nicotinic binding in rat brain: autoradiographic comparison of [3H]acetylcholine, [3H]nicotine, and [125I]-alpha-bungarotoxin , 1985, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[206]  J. E. Vaughn,et al.  Immunocytochemical localization of choline acetyltransferase in rat cerebral cortex: A study of cholinergic neurons and synapses , 1985, The Journal of comparative neurology.

[207]  E. London,et al.  Autoradiographic localization of [3H]nicotine binding sites in the rat brain , 1985, Neuroscience Letters.

[208]  S. Foote,et al.  The serotonin and norepinephrine innervation of primary visual cortex in the cynomolgus monkey (Macaca fascicularis) , 1984, The Journal of comparative neurology.

[209]  T. Kasamatsu,et al.  Enhanced binocular interaction in the visual cortex of normal kittens subjected to intracortical norepinephrine perfusion , 1984, Brain Research.

[210]  J. Wall,et al.  Cutaneous responsiveness in primary somatosensory (S-I) hindpaw cortex before and after partial hindpaw deafferentation in adult rats , 1984, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[211]  N. Daw,et al.  Substantial reduction of cortical noradrenaline by lesions of adrenergic pathway does not prevent effects of monocular deprivation , 1984, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[212]  D. Price,et al.  Immunocytochemical identification of cholinergic neurons in the monkey central nervous system using monoclonal antibodies against choline acetyltransferase , 1983, Neuroscience Letters.

[213]  A. Sillito,et al.  Cholinergic modulation of the functional organization of the cat visual cortex , 1983, Brain Research.

[214]  H. Thoenen,et al.  Cholinergic neurons in the rat cerebral cortex demonstrated by immunohistochemical localization of choline acetyltransferase , 1983, Neuroscience Letters.

[215]  J. E. Vaughn,et al.  Organization and morphological characteristics of cholonergic neurons: an immunocytochemical study with a monoclonal antibody to choline acetyltransferase , 1983, Brain Research.

[216]  S. Nelson,et al.  Two methods of catecholamine depletion in kitten visual cortex yield different effects on plasticity , 1983, Nature.

[217]  A. Levey,et al.  Cholinergic innervation of cortex by the basal forebrain: Cytochemistry and cortical connections of the septal area, diagonal band nuclei, nucleus basalis (Substantia innominata), and hypothalamus in the rhesus monkey , 1983, The Journal of comparative neurology.

[218]  M. Bear,et al.  The plastic response to monocular deprivation persists in kitten visual cortex after chronic depletion of norepinephrine , 1983, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[219]  D. J. Felleman,et al.  Topographic reorganization of somatosensory cortical areas 3b and 1 in adult monkeys following restricted deafferentation , 1983, Neuroscience.

[220]  J. Kaas,et al.  The reorganization of somatosensory cortex following peripheral nerve damage in adult and developing mammals. , 1983, Annual review of neuroscience.

[221]  P. Dutar,et al.  Excitatory effect of acetylcholine on different types of neurons in the first somatosensory neocortex of the rat: Laminar distribution and pharmacological characteristics , 1982, Neuroscience.

[222]  D. Woodward,et al.  Norepinephrine enhancement of inhibitory synaptic mechanisms in cerebellum and cerebral cortex: mediation by beta adrenergic receptors. , 1982, The Journal of pharmacology and experimental therapeutics.

[223]  F E Bloom,et al.  Noradrenergic and serotonergic fibers innervate complementary layers in monkey primary visual cortex: an immunohistochemical study. , 1982, Proceedings of the National Academy of Sciences of the United States of America.

[224]  D. Rasmusson,et al.  Reorganization of raccoon somatosensory cortex following removal of the fifth digit , 1982, The Journal of comparative neurology.

[225]  R. Duckrow,et al.  Cerebral compensation for chronic noradrenergic denervation induced by locus ceruleus lesion: recovery of receptor binding, isoproterenol- induced adenylate cyclase activity, and oxidative metabolism , 1981, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[226]  J. Pettigrew,et al.  Cortical recovery from effects of monocular deprivation: acceleration with norepinephrine and suppression with 6-hydroxydopamine. , 1981, Journal of neurophysiology.

[227]  J. Palacios,et al.  The distribution of histamine H1-receptors in the rat brain: An autoradiographic study , 1981, Neuroscience.

[228]  S. T. Mason,et al.  Modulation of rat brain α- and β-adrenergic receptor populations by lesions of the dorsal noradrenergic bundle , 1980, Brain Research.

[229]  M. Molliver,et al.  The serotonin innervation of the cerebral cortex in the rat—an immunohistochemical analysis , 1980, Neuroscience.

[230]  D. Woodward,et al.  Interaction of norepinephrine with cerebrocortical activity evoked by stimulation of somatosensory afferent pathways in the rat , 1980, Experimental Neurology.

[231]  J. Pettigrew,et al.  Preservation of binocularity after monocular deprivation in the striate cortex of kittens treated with 6‐Hydroxydopamine , 1979, The Journal of comparative neurology.

[232]  J. Pettigrew,et al.  Restoration of visual cortical plasticity by local microperfusion of norepinephrine , 1979, The Journal of comparative neurology.

[233]  J. Kalaska,et al.  Chronic paw denervation causes an age-dependent appearance of novel responses from forearm in "paw cortex" of kittens and adult cats. , 1979, Journal of neurophysiology.

[234]  H. Killackey,et al.  Anomalous organization of SMI somatotopic map consequent to vibrissae removal in the newborn rat , 1978, Brain Research.

[235]  J. Morrison,et al.  The distribution and orientation of noradrenergic fibers in neocortex of the rat: An immunofluorescence study , 1978, The Journal of comparative neurology.

[236]  P. Waite,et al.  Removal of whiskers in young rats causes functional changes in cerebral cortex , 1978, Nature.

[237]  N. Slater,et al.  Responses of single cortical neurones to noradrenaline and dopamine , 1978, Neuropharmacology.

[238]  E. Azmitia,et al.  An autoradiographic analysis of the differential ascending projections of the dorsal and median raphe nuclei in the rat , 1978, The Journal of comparative neurology.

[239]  J. Pettigrew,et al.  Local perfusion of noradrenaline maintains visual cortical plasticity , 1978, Nature.

[240]  P. Molinoff,et al.  beta-Adrenergic receptor involvement in 6-hydroxydopamine-induced supersensitivity in rat cerebral cortex. , 1976, Science.

[241]  J. Pettigrew,et al.  Depletion of brain catecholamines: failure of ocular dominance shift after monocular occlusion in kittens. , 1976, Science.

[242]  Robert Freedman,et al.  Effects of putative neurotransmitters on neuronal activity in monkey auditory cortex , 1975, Brain Research.

[243]  Peter Grigg,et al.  Effects of visual deprivation and strabismus on the response of neurons in the visual cortex of the monkey, including studies on the striate and prestriate cortex in the normal animal , 1974 .

[244]  T. Woolsey,et al.  Somatosensory Cortex: Structural Alterations following Early Injury to Sense Organs , 1973, Science.

[245]  T. Stone Cholinergic mechanisms in the rat somatosensory cerebral cortex , 1972, The Journal of physiology.

[246]  R. Spehlmann,et al.  Acetylcholine and the synaptic transmission of specific impulses to the visual cortex. , 1971, Brain : a journal of neurology.

[247]  D. Hubel,et al.  The period of susceptibility to the physiological effects of unilateral eye closure in kittens , 1970, The Journal of physiology.

[248]  D. Straughan,et al.  Noradrenaline sensitive cells in cat cerebral cortex. , 1969, International journal of neuropharmacology.

[249]  D. Hubel,et al.  SINGLE-CELL RESPONSES IN STRIATE CORTEX OF KITTENS DEPRIVED OF VISION IN ONE EYE. , 1963, Journal of neurophysiology.

[250]  K. Krnjević,et al.  Iontophoretic studies of neurones in the mammalian cerebral cortex , 1963, The Journal of physiology.