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Target Concepts:
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Query: EC:2.7.10.1 (
ERK
)
95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
There is evidence to suggest that the antidepressant activity of sleep deprivation may be due to an enhancement of serotonergic and/or noradrenergic neurotransmission in brain. In the present study we examined the possibility that such changes may occur at the level of the norepinephrine (
NET
) and serotonin (SERT) and transporters. Rats were deprived of sleep for 96 h using the modified multiple platform method and then sacrificed for autoradiographic assessments of
NET
and SERT binding throughout the brain. [3H]
Nisoxetine
binding to the NE transporter was generally decreased in 44 of 45 areas examined, with significant reductions occurring in the anterior cingulate cortex (-16%), endopiriform n. (-18%), anterior olfactory n. (-19%), glomerular layer of olfactory bulb (-18%), ventral pallidum (-14%), medial preoptic area (-16%), retrochiasmatic/arcuate hypothalamus (-18%), anteromedial thalamic n. (-15%), and rostral raphe (-17%). In contrast, SERT binding measured with [11C]DASB showed no clear directional trends in 61 brain areas examined, but was significantly reduced in subdivisions of the anterior olfactory nucleus (-22%) and substantia nigra (-18%). Thus, sleep deprivation induced widespread decreases in
NET
binding, and fewer and well-localized decreases in SERT binding. Significant down-regulation in one brain region, the anterior olfactory nucleus, was observed in the case of both transporters. These results suggest that mechanisms involved in the antidepressant action of sleep deprivation may involve generalized
NET
down-regulation as well as decreased SERT binding in specific areas. Insofar as these changes may be associated with increased levels of serotonin (5-HT) and norepinephrine (NE) in the synapse, they suggest that sleep deprivation may share some basic mechanisms of action with several current antidepressant medications.
...
PMID:Distinct effects of sleep deprivation on binding to norepinephrine and serotonin transporters in rat brain. 1569 38
The aim was to investigate the roles of transmembrane domain 2 and the adjacent region of the first intracellular loop in determining human noradrenaline transporter (hNET) function by pharmacological and substituted-cysteine accessibility method (SCAM) analyses. It was first necessary to establish a suitable background
NET
for SCAM. Alanine mutants of endogenous hNET cysteines, hC86A, hC131A and hC339A, were examined and showed no marked effects on expression or function. hNET and the mutants were also resistant to methanethiosulfonate (MTS), ethylammonium (MTSEA) and MTStrimethylammonium (MTSET). Hence, wild-type hNET is an appropriate background for production of cysteine mutants for SCAM. Pharmacological investigation showed that all mutants except hT99C and hL109C showed reduced cell-surface expression, while all except hM107C showed a reduction in functional activity. The mutations did not markedly affect the apparent affinities of substrates, but apparent affinities of cocaine were decreased 7-fold for hP97C and 10-fold for hF101C and increased 12-fold for hY98C. [3H]
Nisoxetine
binding affinities were decreased 13-fold for hP97C and 5-fold for hF101C. SCAM analysis revealed that only hL102C was sensitive to 1.25 mm MTSEA, and this sensitivity was protected by noradrenaline, nisoxetine and cocaine. The results suggest that this region of hNET is important for interactions with antidepressants and cocaine, but it is probably not involved in substrate translocation mechanisms.
...
PMID:Roles of transmembrane domain 2 and the first intracellular loop in human noradrenaline transporter function: pharmacological and SCAM analysis. 1609 34
