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
Reads0
Chats0
TLDR
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
Citations
More filters
Journal ArticleDOI
Do adolescents always take more risks than adults? A within-subjects developmental study of context effects on decision making and processing
TL;DR: The authors found that adolescents are more prone than adults to take risks when faced with unlikely but costly negative outcomes, and broadly point to complex interactions between multiple psychological constructs that develop across adolescence.
Journal ArticleDOI
Alteration of Neural Pathways and Its Implications in Alzheimer’s Disease
TL;DR: It is proposed that specific neural circuits that are altered in the AD brain can be potential targets for AD treatment and therapeutic implications for targeting neuronal circuits through various therapeutic approaches and the appropriate timing of treatment for AD are provided.
Journal ArticleDOI
Relief from incidental fear evokes exuberant risk taking.
TL;DR: The results indicate that the relief of fear can give a substantial boost to financial risk taking (suggestive of exuberance) and is best captured by Prospect Theory if it allows for an increase in participants’ valuation of option outcomes when relieved of fear.
Book ChapterDOI
Modeling Psycho-Emotional States via Neurosimulation of Monoamine Neurotransmitters
TL;DR: A computational model that bridges psycho-emotional states with computational processes as the extension of the Hugo Lovheim “cube of emotions” is presented, indicating the overall correctness of the neuro-mimetic approaches of artificial cognition that not only are feasible but also offer new and unique ways of designing computing architectures with special performing potential.
Journal ArticleDOI
Endothelial ether lipids link the vasculature to blood pressure, behavior, and neurodegeneration
Larry D. Spears,Sangeeta Adak,Guifang Dong,Guifang Dong,Xiaochao Wei,George Spyropoulos,Qiang Zhang,Li Yin,Chu Feng,Donghua Hu,Irfan J. Lodhi,Fong-Fu Hsu,Rithwick Rajagopal,Kevin K. Noguchi,Carmen M. Halabi,Lindsey M. Brier,Annie R. Bice,Brian V. Lananna,Erik S. Musiek,Oshri Avraham,Valeria Cavalli,Jerrah K. Holth,David M. Holtzman,David F. Wozniak,Joseph P. Culver,Clay F. Semenkovich +25 more
TL;DR: In this article, PexRAP endothelial knockout (PEKO) mice responded normally to hindlimb ischemia but had lower blood pressure and increased plasma renin activity.
References
More filters
Journal Article
Evidence for the existence of monoamine-containing neurons in the central nervous system. i. demonstration of monoamines in the cell bodies of brain stem neurons.
Dahlstroem A,Fuxe K +1 more
Journal ArticleDOI
Brain stem reticular formation and activation of the EEG
G. Moruzzi,Horace W. Magoun +1 more
TL;DR: In this paper, it was shown that reticular activation is associated with the activation of the reticular formation of the brain stem, and that reticulus activation can be induced by low frequency stimulation of the diffuse thalamic projection system, rather than intra-cortical spread following the arrival of afferent impulses at the sensory receiving areas of the cortex.
Journal ArticleDOI
Stereotaxic mapping of the monoamine pathways in the rat brain.
TL;DR: The ascending monoamine pathways in the rat brain are demonstrated by the pile up of fluorescent material occurring in the axons after various types of lesions, indicating a unique role for the locus coeruleus in influencing the activity of the entire brain.
Journal ArticleDOI
The hypocretins: Hypothalamus-specific peptides with neuroexcitatory activity
L de Lecea,Thomas S. Kilduff,Christelle Peyron,Xiao-Bing Gao,Pamela E. Foye,Patria E. Danielson,C. Fukuhara,Elena Battenberg,Vigdis T. Gautvik,Frederick S. Bartlett,Wayne N. Frankel,A. N. van den Pol,Floyd E. Bloom,Kaare M. Gautvik,J G Sutcliffe +14 more
TL;DR: A hypothalamus-specific mRNA is described that encodes preprohypocretin, the putative precursor of a pair of peptides that share substantial amino acid identities with the gut hormone secretin, suggesting that the hypocretins function within the CNS as neurotransmitters.
Journal ArticleDOI
Neurons Containing Hypocretin (Orexin) Project to Multiple Neuronal Systems
Christelle Peyron,Devin K. Tighe,Anthony N. van den Pol,Anthony N. van den Pol,Luis de Lecea,H. Craig Heller,J. Gregor Sutcliffe,Thomas S. Kilduff +7 more
TL;DR: The results of this immunohistochemical study suggest that hypocretins are likely to have a role in physiological functions in addition to food intake such as regulation of blood pressure, the neuroendocrine system, body temperature, and the sleep–waking cycle.