Functional neuroanatomy of the noradrenergic locus coeruleus: its roles in the regulation of arousal and autonomic function part I: principles of functional organisation.
E. R Samuels,E Szabadi +1 more
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The locus coeruleus is the major noradrenergic nucleus of the brain, giving rise to fibres innervating extensive areas throughout the neuraxis, resulting in complex patterns of neuronal activity throughout the brain.Abstract:
The locus coeruleus (LC) is the major noradrenergic nucleus of the brain, giving rise to fibres innervating extensive areas throughout the neuraxis. Recent advances in neuroscience have resulted in the unravelling of the neuronal circuits controlling a number of physiological functions in which the LC plays a central role. Two such functions are the regulation of arousal and autonomic activity, which are inseparably linked largely via the involvement of the LC. The LC is a major wakefulness-promoting nucleus, resulting from dense excitatory projections to the majority of the cerebral cortex, cholinergic neurones of the basal forebrain, cortically-projecting neurones of the thalamus, serotoninergic neurones of the dorsal raphe and cholinergic neurones of the pedunculopontine and laterodorsal tegmental nucleus, and substantial inhibitory projections to sleep-promoting GABAergic neurones of the basal forebrain and ventrolateral preoptic area. Activation of the LC thus results in the enhancement of alertness through the innervation of these varied nuclei. The importance of the LC in controlling autonomic function results from both direct projections to the spinal cord and projections to autonomic nuclei including the dorsal motor nucleus of the vagus, the nucleus ambiguus, the rostroventrolateral medulla, the Edinger-Westphal nucleus, the caudal raphe, the salivatory nuclei, the paraventricular nucleus, and the amygdala. LC activation produces an increase in sympathetic activity and a decrease in parasympathetic activity via these projections. Alterations in LC activity therefore result in complex patterns of neuronal activity throughout the brain, observed as changes in measures of arousal and autonomic function.read more
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References
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Anatomical evidence for multiple pathways leading from the rostral ventrolateral medulla (nucleus paragigantocellularis) to the locus coeruleus in rat.
Bernadette Astier,Elisabeth J. Van Bockstaele,Elisabeth J. Van Bockstaele,Gary Aston-Jones,Vincent A. Pieribone +4 more
TL;DR: Results indicate that almost all adrenergic input to the LC from C1 neurons in PGi is conveyed by the MB, and this pathway also provides non-adrenergic projections to LC from PGi, but many of these are conveyed by other route(s) as well.
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Locus coeruleus modulates thalamic nociceptive responses via adrenoceptors
TL;DR: Evidence is provided that the LC-descending projections exhibit a suppressive effect on nociceptive transmission at the spinal level through alpha1- and alpha2-receptors, respectively, which is similar to that seen in parafascicular neurons following electrical stimulation of the locus coeruleus.
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Serotonin and dopamine afferents to the rat locus coeruleus: a biochemical study after lesioning of the ventral mesencephalic tegmental-A10 region and the raphé dorsalis.
TL;DR: The monoamine levels in the locus coeruleus (LC) were determined by HPLC following specific lesions of the ventral mesencephalic tegmental-A 10 regions (VMT-A10) and raphé dorsalis (RD) to suggest that the projection from this region to the LC is of dopaminergic nature.
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Noradrenaline mediates slow excitatory synaptic potentials in rat dorsal raphe neurons in vitro.
TL;DR: The result suggests that slow EPSPs in rat DR neurons are mediated by NA interacting with an alpha 1-adrenoceptor, and isomers of phentolamine and prazosin but not by yohimbine and propranolol.
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Effect of clonidine on the human acoustic startle reflex
TL;DR: Findings complement an earlier report (Morgan et al. 1993) that yohimbine augments the amplitude of the startle reflex in man and indicate a new model for the clinical investigation of central alpha2 adrenoceptor function in humans.