Literature DB >> 6771765

Impulse activity of locus coeruleus neurons in awake rats and monkeys is a function of sensory stimulation and arousal.

S L Foote, G Aston-Jones, F E Bloom.   

Abstract

By means of extracellular recordings, individual norepinephrine-containing neurons in the locus coeruleus of unanesthetized behaviorally responsive rats and squirrel monkeys were found to respond to specific sensory and behavioral conditions. In rats, distinct clusters of action potentials followed the presentation of various nonnoxious auditory, visual, or somatosensory stimuli at latencies of 15-60 msec. Increased discharge rates were also seen during periods of spontaneous electroencephalogram arousal in both species. In monkeys, these cells responded most vigorously to complex arousing stimuli such as a preferred food. Because the noradrenergic innervation of most forebrain regions arises from the locus coeruleus, these results allow prediction of situations under which this massive projection system would be active and suggest a physiological role for this chemically identified network in specific behavioral processes.

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Year:  1980        PMID: 6771765      PMCID: PMC349541          DOI: 10.1073/pnas.77.5.3033

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  21 in total

1.  Sleep cycle oscillation: reciprocal discharge by two brainstem neuronal groups.

Authors:  J A Hobson; R W McCarley; P W Wyzinski
Journal:  Science       Date:  1975-07-04       Impact factor: 47.728

2.  Effect of minor tranquillisers on hippocampal theta rhythm mimicked by depletion of forebrain noradrenaline.

Authors:  J A Gray; N McNaughton; D T James; P H Kelly
Journal:  Nature       Date:  1975-12-04       Impact factor: 49.962

3.  Activity patterns of catecholamine-containing pontine neurons in the dorso-lateral tegmentum of unrestrained cats.

Authors:  N S Chu; F E Bloom
Journal:  J Neurobiol       Date:  1974

4.  Noradrenergic neurons: morphine inhibition of spontaneous activity.

Authors:  J Korf; B S Bunney; G K Aghajanian
Journal:  Eur J Pharmacol       Date:  1974-02       Impact factor: 4.432

5.  Catecholamine-containing neurons of the nucleus locus coeruleus in the cat.

Authors:  B E Jones; R Y Moore
Journal:  J Comp Neurol       Date:  1974-09-01       Impact factor: 3.215

6.  Responses of primate locus coeruleus and subcoeruleus neurons to stimulation at reinforcing brain sites and to natural reinforcers.

Authors:  D C German; E E Fetz
Journal:  Brain Res       Date:  1976-06-18       Impact factor: 3.252

7.  The peripheral and central role of the catecholamines in the mechanisms of anxiety.

Authors:  M Lader
Journal:  Int Pharmacopsychiatry       Date:  1974

8.  Effects of putative neurotransmitters on neuronal activity in monkey auditory cortex.

Authors:  S L Foote; R Freedman; A P Oliver
Journal:  Brain Res       Date:  1975-03-21       Impact factor: 3.252

9.  The action of norepinephrine in the rat hippocampus. IV. The effects of locus coeruleus stimulation on evoked hippocampal unit activity.

Authors:  M Segal; F E Bloom
Journal:  Brain Res       Date:  1976-05-14       Impact factor: 3.252

10.  Fluorescence histochemistry of monoamine-containing cell bodies in the brain stem of the squirrel monkey (Saimiri sciureus). I. The locus caeruleus.

Authors:  J E Hubbard; V Di Carlo
Journal:  J Comp Neurol       Date:  1973-02-15       Impact factor: 3.215
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  200 in total

1.  Activation of pontine and medullary motor inhibitory regions reduces discharge in neurons located in the locus coeruleus and the anatomical equivalent of the midbrain locomotor region.

Authors:  B Y Mileykovskiy; L I Kiyashchenko; T Kodama; Y Y Lai; J M Siegel
Journal:  J Neurosci       Date:  2000-11-15       Impact factor: 6.167

Review 2.  The role of neuromodulators in selective attention.

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Journal:  J Neurochem       Date:  2011-10-20       Impact factor: 5.372

4.  Compound stimulus presentation and the norepinephrine reuptake inhibitor atomoxetine enhance long-term extinction of cocaine-seeking behavior.

Authors:  Patricia H Janak; M Scott Bowers; Laura H Corbit
Journal:  Neuropsychopharmacology       Date:  2011-11-16       Impact factor: 7.853

5.  Corticotropin-releasing factor in the norepinephrine nucleus, locus coeruleus, facilitates behavioral flexibility.

Authors:  Kevin Snyder; Wei-Wen Wang; Rebecca Han; Kile McFadden; Rita J Valentino
Journal:  Neuropsychopharmacology       Date:  2011-10-12       Impact factor: 7.853

6.  The state of somatosensory cortex during neuromodulation.

Authors:  Morgana Favero; Gladis Varghese; Manuel A Castro-Alamancos
Journal:  J Neurophysiol       Date:  2012-05-23       Impact factor: 2.714

Review 7.  Proton detection and breathing regulation by the retrotrapezoid nucleus.

Authors:  Patrice G Guyenet; Douglas A Bayliss; Ruth L Stornetta; Marie-Gabrielle Ludwig; Natasha N Kumar; Yingtang Shi; Peter G R Burke; Roy Kanbar; Tyler M Basting; Benjamin B Holloway; Ian C Wenker
Journal:  J Physiol       Date:  2016-02-19       Impact factor: 5.182

8.  The effects of methylphenidate on cerebral responses to conflict anticipation and unsigned prediction error in a stop-signal task.

Authors:  Peter Manza; Sien Hu; Jaime S Ide; Olivia M Farr; Sheng Zhang; Hoi-Chung Leung; Chiang-shan R Li
Journal:  J Psychopharmacol       Date:  2016-01-11       Impact factor: 4.153

9.  Unique Characteristics of Neonatal Classical Conditioning: The Role of the Amygdala and Locus Coeruleus.

Authors:  Regina M Sullivan
Journal:  Integr Physiol Behav Sci       Date:  2001-10

10.  Antidepressant drugs with differing pharmacological actions decrease activity of locus coeruleus neurons.

Authors:  Charles H K West; James C Ritchie; Katherine A Boss-Williams; Jay M Weiss
Journal:  Int J Neuropsychopharmacol       Date:  2008-10-27       Impact factor: 5.176
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