Quantitation of catecholamine neurons in the locus coeruleus in human brains of normal young and older adults and in depression

Chan‐Palay, Victoria; Asan, Esther

doi:10.1002/cne.902870307

Cited by 223 publications

(149 citation statements)

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“…Iversen et al (1983) have shown that counting locus coeruleus neurons that contain neuromelanin and those that contain dopamine-␣-hydroxylase gives the same number of cell counts in the human brain. Other studies have demonstrated similar results by counting tyrosine hydroxylase-immunoreactive neurons and the number of cells containing neuromelanin pigment in the same brains (Mann and Yates, 1979;Baker et al, 1989;Chan-Palay and Asan, 1989;Blanchard et al, 1993). Tyrosine hydroxylaseimmunoreactive cells that do not contain neuromelanin have been reported (Chan-Palay and Asan, 1989) in the human locus coeruleus, but these neurons occur in a small region of the locus coeruleus rostral to the frenulum, an area where cell counts and binding were not compared in the present study.…”

Section: Although [supporting

confidence: 80%

“…Neuromelanin pigment appears as very dark granules and is characteristic of all catecholamine-containing neurons in humans (Bogerts, 1981). Neuromelanin may be a waste product resulting from oxidative catabolism of catecholamine and in locus coeruleus neurons appears to be colocalized with tyrosine hydroxylase, the rate-limiting enzyme for catecholamine synthesis (Mann and Yates, 1979;Baker et al, 1989;Chan-Palay and Asan, 1989). Iversen et al (1983) have shown that counting locus coeruleus neurons that contain neuromelanin and those that contain dopamine-␣-hydroxylase gives the same number of cell counts in the human brain.…”

Section: Although [mentioning

confidence: 99%

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Pharmacology and Distribution of Norepinephrine Transporters in the Human Locus Coeruleus and Raphe Nuclei

et al. 1997

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The norepinephrine transporter (NET ) is a site of action for tricyclic antidepressant drugs and for drugs of abuse such as amphetamine and cocaine. In this study, the binding of [ 3 H]nisoxetine to NETs in the noradrenergic cell group, the locus coeruleus, and the serotonergic cell groups, the dorsal raphe nuclei, was measured autoradiographically in postmortem human brain. 3 H]nisoxetine binding to NETs in monoaminergic nuclei was assessed by measuring the inhibition of its binding by desipramine, imipramine, or citalopram. The order of affinities of these drugs was identical in the locus coeruleus and dorsal and median raphe and was characteristic of binding to NETs (desipramine Ͼ imipramine Ͼ citalopram). Thus, high levels of NETs and an uneven distribution of NETs occur in the locus coeruleus as well as in the dorsal raphe nuclei of the human.

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Section: Although [supporting

confidence: 80%

Section: Although [mentioning

confidence: 99%

Pharmacology and Distribution of Norepinephrine Transporters in the Human Locus Coeruleus and Raphe Nuclei

et al. 1997

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“…The LC is the site of synthesis and release of the neurotransmitter norepinephrine, and the neurons of the LC are important in a variety of cognitive, affective, and other behavioral functions, as well as associated clinical dysfunctions (e.g., depression, anxiety, sleep and circadian disorders [52]). Compared to healthy controls, depressed individuals display reduced gray matter density in this region [53][54][55]. The LC is also one of the primary sites mediating the stress response as well as a site of action of anti-depressant drugs [56].…”

Section: Discussionmentioning

confidence: 99%

Brainstem Activity Predicts Attachment-Related Anxiety

Kikuchi¹,

Matsutani²,

Mori³

et al. 2018

Neuropsychiatry

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Objective: Attachment security serves as a critical resource for individuals to preserve relationship quality. However, insecure attachment interrupts it and seriously influences mental/physical health. Therefore, it is important to clarify the correlations between brain activity and attachment-related anxiety and its avoidance. Methods:We investigated these correlations in healthy male subjects by using functional magnetic resonance imaging (fMRI) while they were viewing their partner.Results: The brain regions that were significantly activated for the partner vs. unknown females were the anterior cingulate cortex (ACC), posterior cingulate cortex (PCC), dorsal raphe nucleus (DRN), pontine raphe nucleus (PRN), and locus coeruleus (LC) in a whole-brain analysis. A region of interest (ROI) analysis showed that the DRN, periaqueductal grey (PAG), hypothalamus, anterior insula (AIC), substantia nigra/ventral tegmental area (SN/VTA), ACC, PCC and intraparietal sulcus (IPS) were significantly activated. Furthermore, activity in the DRN, SN/VTA, and LC negatively correlated with attachment-related anxiety.Conclusions: There were individual differences in the correlations between the brainstem activity and attachment-related anxiety, although brain activity in our subjects was more similar to that observed in long-term intense romantic love and maternal love compared to that in early-stage romantic love. These brainstem regions are the primary sites of neurotransmitters which modulate basic functions of survival, and also play key roles for maintenance of secure relationships with a partner. This finding might be useful to assessment of the risk of breakdowns by factors of the attachment style.

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“…Agingrelated decline in motor function has been associated with noradrenergic (NE) deficits (Chan-Palay and Asan, 1989;Gesi et al, 2000). Furthermore, 18-month-old GDNF ϩ/Ϫ mice have lower NE concentrations and morphological alterations of NE cell bodies in the locus ceruleus, lower NE transporter activity in the cerebellum and brainstem, and fewer TH-positive fibers in the hippocampus, cerebellum, and frontal cortex compared with age-matched WT mice (Zaman et al, 2003).…”

Section: Gdnfmentioning

confidence: 99%

Long-Term Consequences of Methamphetamine Exposure in Young Adults Are Exacerbated in Glial Cell Line-Derived Neurotrophic Factor Heterozygous Mice

Boger¹,

Middaugh²,

Patrick³

et al. 2007

J. Neurosci.

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Methamphetamine abuse in young adults has long-term deleterious effects on brain function that are associated with damage to monoaminergic neurons. Administration of glial cell line-derived neurotrophic factor (GDNF) protects dopamine neurons from the toxic effects of methamphetamine in animal models. Therefore, we hypothesized that a partial GDNF gene deletion would increase the susceptibility of mice to methamphetamine neurotoxicity during young adulthood and possibly increase age-related deterioration of behavior and dopamine function. Two weeks after a methamphetamine binge (4 ϫ 10 mg/kg, i.p., at 2 h intervals), GDNF ϩ/Ϫ mice had a significantly greater reduction of tyrosine hydroxylase immunoreactivity in the medial striatum, a proportionally greater depletion of dopamine and 3,4-dihydroxyphenylacetic acid (DOPAC) levels in the striatum, and a greater increase in activated microglia in the substantia nigra than wild-type mice. At 12 months of age, methamphetamine-treated GDNF ϩ/Ϫ mice exhibited less motor activity and lower levels of tyrosine hydroxylase-immunoreactivity, dopamine, DOPAC, and serotonin than wild-type mice. Greater striatal dopamine transporter activity in GDNF ϩ/Ϫ mice may underlie their differential response to methamphetamine. These data suggest the possibility that methamphetamine use in young adults, when combined with lower levels of GDNF throughout life, may precipitate the appearance of parkinsonian-like behaviors during aging.

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Quantitation of catecholamine neurons in the locus coeruleus in human brains of normal young and older adults and in depression

Cited by 223 publications

References 39 publications

Pharmacology and Distribution of Norepinephrine Transporters in the Human Locus Coeruleus and Raphe Nuclei

Pharmacology and Distribution of Norepinephrine Transporters in the Human Locus Coeruleus and Raphe Nuclei

Brainstem Activity Predicts Attachment-Related Anxiety

Long-Term Consequences of Methamphetamine Exposure in Young Adults Are Exacerbated in Glial Cell Line-Derived Neurotrophic Factor Heterozygous Mice

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