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Query: UNIPROT:Q9UIJ5 (
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)
58,342
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This article reviews the current knowledge of the early onset of the monoaminergic innervation in the developing cerebral cortex in humans and of changes in the distribution of tyrosine hydroxylase (TH) immunoreactivity in different neuronal populations of the developing telencephalon. The early genesis of the central monoaminergic neurons in mammals has led to postulations of a trophic role of monoamines in brain morphogenesis--especially in the cerebral cortex. The developmental effects of amines can be linked to the transient expression of different molecules linked to dopamine or serotonin neurotransmission. We present novel data on the immunocytochemistry of the vesicular monoamine transporter (VMAT2) and of the high-affinity
serotonin transporter
(
SERT
) in human fetuses.
SERT
is a marker of the serotoninergic axons and allows visualization of the serotonin afferents of the raphe in the human telencephalon. In addition, during a restricted time period corresponding to 12-14 postovulatory weeks, we found
SERT
-immunolabeled fibers in the rostral and caudal limbs of the internal capsule that do not correspond to serotoninergic fibers, but do coincide with the calbindin D28k-labeled thalamocortical fiber tracts. The present observations are correlated with findings in rodents, in which a transient expression of
SERT
is visible in the thalamocortical axons during early postnatal life. The function of this transporter has been shown to be important for the fine-tuning of cortical sensory maps during the critical period of development of these maps. Although the present observation does not allow ascertainment of which neurons transiently express
SERT
, it lends support to the notion that serotonin and serotonin uptake could have important developmental roles, during the formation of brain connections in humans, as they have in rodents.
Anat
Rec
2002 Jun 01
PMID:Changing distribution of monoaminergic markers in the developing human cerebral cortex with special emphasis on the serotonin transporter. 1199 77
Choroid plexuses (CPs) play pivotal roles in a wide range of processes that establish, survey, and maintain the biochemical and cellular status of the central nervous system. Mammalian CPs contain a very high density of serotonin receptors, and serotonin has been shown to affect CP functions. The
serotonin transporter
(
SERT
) regulates the entire serotonergic system, including serotonin receptors by means of modulation of serotonin concentration in the extracellular fluid. In this study, the expression of
SERT
in the CPs from the brain of a mammalian species, Bubalis bubalis, was established. By immunogold labeling in scanning electron microscopy,
SERT
immunoreactivity was found to be localized on the apical surface of the choroid epithelium. In particular,
SERT
positivity was detected on the apical portion of villi, and both on the membrane and in the cytoplasm of grouped cells on the surface of the choroid epithelium. Significantly, no
SERT
was detected in blood vessels irrigating the CPs. The expression of
SERT
mRNA transcripts of 440 bp in the CPs was detected by reverse-transcription polymerase chain reaction, and Western blotting analysis revealed the presence of three isoforms of the protein with molecular masses of approximately 70, 80, and 140 kDa, respectively, probably corresponding to differently glycosylated
SERT
. Our findings provide the first report of
SERT
detection in the CPs of buffalo brain and indicate that this protein is locally synthesized from the choroid epithelial cells. We suggest that
SERT
might have an important role in mammalian CPs, possibly regulating the serotonin flow between brain and rest of the body.
Anat
Rec
(Hoboken) 2007 Dec
PMID:Expression of the serotonin transporter (SERT) in the choroid plexuses from buffalo brain. 1795 53
Several lines of evidence have implicated a direct reciprocal interaction between serotonin and nitric oxide (NO). The goal of this investigation was, therefore, to examine the coexpression of tryptophan hydroxylase (TPH; the rate limiting enzyme for the synthesis of serotonin) and neuronal NO synthase (nNOS) in the ascending cortical projecting raphe nuclei (B6-B9 subgroups), when compared with the descending spinal cord projecting raphe nuclei (B1-B3 subgroups). Our data demonstrated that: (1) a significant number of raphe-cortical projecting neurons was identified not only in the midline subgroup of dorsal raphe (B6, 7) but also in the median raphe (B8), as well as in the supralemniscal nucleus (B9); (2) serotonergic cortical projecting neurons from these three raphe nuclei exhibited a high (>80%) percentage of coexpression with nNOS immunoreactivity; (3) similarly,
serotonin transporter
immunoreactive fibers in the medial prefrontal cortex were also double-labeled with nNOS immunoreactivity; (4) in contrast, the descending spinal cord projecting raphe nuclei revealed only TPH but not nNOS immunoreactivity. Our present findings suggest the existence of a direct interaction between serotonin and NO in the ascending cortical projecting raphe system. In contrast, a different strategy appears to operate the descending spinal cord projecting raphe system.
Anat
Rec
(Hoboken) 2010 Nov
PMID:Coexpression of serotonin and nitric oxide in the raphe complex: cortical versus subcortical circuit. 2073 26
Infants born to mothers taking selective serotonin reuptake inhibitors (SSRIs) late in pregnancy have been reported to exhibit signs of antidepressant withdrawal. Such evidence suggests that these drugs access the fetal brain in utero at biologically significant levels. Recent studies in rodents have revealed that early exposure to antidepressants can lead to long lasting abnormalities in adult behaviors, and result in robust decreases in the expression of a major serotonin synthetic enzyme (tryptophan hydroxylase) along the raphe midline. In the present investigation, we injected rat pups with citalopram (CTM: 5 mg/kg, 10 mg/kg, and 20 mg/kg) from postnatal Days 8-21, and examined
serotonin transporter
(
SERT
) labeling in the hippocampus, ventrobasal thalamic complex, and caudate-putamen when the subjects reached adulthood. Our data support the idea, that forebrain targets in receipt of innervation from the raphe midline are particularly vulnerable to the effects of CTM.
SERT
-immunoreactive fiber density was preferentially decreased throughout all sectors of the hippocampal formation, whereas the subcortical structures, each supplied by more lateral and rostral aspects of the raphe complex, respectively, were not significantly affected. Reductions in
SERT
staining were also found to be dose-dependent. These findings suggest that SSRIs may not only interfere with the establishment of chemically balanced circuits in the neonate but also impose selective impairment on higher cortical function and cognitive processes via more circumscribed (i.e., regionally specific) deficits in 5-HT action.
Anat
Rec
(Hoboken) 2010 Nov
PMID:Neonatal exposure to citalopram selectively alters the expression of the serotonin transporter in the hippocampus: dose-dependent effects. 2083 Jun 89
Previously, we presented a direct EM method for producing kinetic parameter images from list mode PET data, where the time-activity curve for each voxel is described by a one-tissue compartment model (1T). The initial evaluations were performed with simulations, without motion, randoms, or scatter effects included. By extension of our previous frame-based physics correction methods, a practical direct 4D parametric reconstruction algorithm is now proposed and implemented for human data. Initial evaluations were performed using 3 human subjects with the
serotonin transporter
tracer [(11)C]AFM. Comparisons with the 2-step approach (frame-based reconstruction followed by voxel-by-voxel parameter estimation) provided encouraging initial results. Regional analysis showed that the 2-step and 4D methods have similar K(1) and V(T) values, but with a consistent difference. Visual analysis showed some noise reduction in 4D. These initial results suggest that direct 4D parametric reconstruction can be performed with real data, and offers the potential for improved accuracy and precision over the 2-step frame method.
IEEE Nucl Sci Symp Conf
Rec
(1997) 2009 Nov 01
PMID:Initial Evaluation of Direct 4D Parametric Reconstruction with Human PET Data. 2127 23
A Cre/loxP-based fate mapping approach was used to follow the regions of the mouse thyroid labeled by the
serotonin transporter
SERT. Reporter gene expression (lacZ) is activated by Cre expression from the SERT locus in SERT(Cre/+) ;ROSA26R compound mouse embryos. Cell labeling, first detected in the thyroid primordium at the E10.5 prenatal stage, was followed until the postnatal day P30. The co-localization of lacZ staining in the same cells that express the transcription factors Nkx2.1 and Pax8 at the E12.5 stage confirms their identity as thyroid cell precursors. SERT immunohistochemistry on thyroid sections of E18.5 embryos showed SERT expression in thyroid follicular cells. Western blotting analysis confirmed the expression of the protein in adult thyroid tissue and cultured FRTL-5 cells. These results describe the fate of SERT-expressing cells during thyroid development, suggesting an active role of SERT in the development and functions of mammalian thyroid. They also highlight the possibility to use the SERT-Cre mouse line as a good Cre driver in early thyroid development.
Anat
Rec
(Hoboken) 2011 Mar
PMID:Fate map of serotonin transporter-expressing cells in developing mouse thyroid. 2130 96
