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Target Concepts:
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Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Corticotropin-releasing factor
(
CRF
) and dopamine (DA) are important integrators of the endocrine and autonomic response to stress.
CRF
neurons in the anterior portions of the periventricular nucleus (PV) and parvocellular paraventricular nucleus (pvPVN) occur close to A14 DA neurons in these same locations. Since
CRF
has been shown to act as an excitatory neurotransmitter, possible
CRF
interactions with the DA system were investigated using double-label immunocytochemistry. Coronal vibratome sections through the PV and pvPVN were obtained from colchicine-treated and nontreated juvenile female cynomolgus macaques. They were sequentially immunostained for tyrosine hydroxylase (TH) (to identify DA neurons) with PAP and DAB, and for
CRF
using 15 nm colloidal gold. By light microscopy, areas of coincidence of TH- and
CRF
-immunoreactive cell bodies in the PV and pvPVN were obvious, but double-stained elements were not observed. By electron microscopy,
asymmetrical
synapses frequently occurred between
CRF
axons and TH dendrites or somata. Symmetrical axosomatic synapses sometimes appeared adjacent to these
CRF
/TH synapses, while symmetrical axoaxonic synapses were rare. We conclude that
CRF
neuronal efferents synaptically activate A14 DA neurons in the primate PV and pvPVN. Parallel
CRF
/DA symmetrical synapses also suggest coexistence of a companion transmitter within some of these same
CRF
neurons. Our own previous work and recent independent studies indicate that this transmitter is probably GABA. Thus the
CRF
neuronal system, which is known to alter secretion of several pituitary hormones, may also act through hypothalamic periventricular DA neurons to mediate other responses to stress.
...
PMID:Corticotropin-releasing factor neurons innervate dopamine neurons in the periventricular hypothalamus of juvenile macaques. Synaptic evidence for a possible companion neurotransmitter. 257 55
The interrelationships of
corticotropin-releasing factor
(
CRF
) immunoreactive neuronal cell bodies and processes have been examined in the paraventricular nucleus (PVN) of adrenalectomized-dexamethasone treated rats. Antisera generated against ovine
CRF
(oCRF) were used in the peroxidase-anti-peroxidase-complex (PAP)-immunocytochemical method at both the light and electron microscopic levels. In this experimental model, a great number of
CRF
-immunoreactive neurons were detected in the parvocellular subdivisions of the PVN and a few scattered labelled parvocellular neurons were also observed within the magnocellular subunits. Characteristic features of immunolabeled perikarya included hypertrophied rough endoplasmic reticulum with dilated endoplasmic cisternae, well developed Golgi complexes and increased numbers of neurosecretory granules. These features are interpreted to indicate accelerated hormone synthesis as a result of adrenalectomy. Afferent fibers communicated with dendrites and somata of
CRF
-immunoreactive neurons via both symmetrical and
asymmetrical
synapses. Some neurons exhibited somatic appendages and these structures were also observed to receive synaptic terminals. Within both the PVN and its adjacent neuropil,
CRF
-immunoreactive axons demonstrated varicosites which contained accumulations of densecore vesicles.
CRF
-containing axons were observed to branch into axon collaterals. These axons or axon collaterals established axo-somatic synapses on
CRF
-producing neurons in the parvocellular regions of the PVN, while in the magnocellular area of the nucleus they were found in juxtaposition with unlabeled magnocellular neuronal cell bodies or in synaptic contact with their dendrites. The presence of
CRF
-immunoreactive material in presynaptic structures suggests that the neurohormone may participate in mechanisms of synaptic transfer. These ultrastructural data indicate that the function of the paraventricular
CRF
-synthesizing neurons is adrenal steroid hormone dependent. They also provide morphological evidence for the existence of a neuronal ultrashort feed-back mechanism within the PVN for the regulation of
CRF
production and possibly that of other peptide hormones contained within this complex.
...
PMID:Evidence for local corticotropin releasing factor (CRF)-immunoreactive neuronal circuits in the paraventricular nucleus of the rat hypothalamus. An electron microscopic immunohistochemical analysis. 390 7
Non-human primates, such as the rhesus monkey, provide excellent models of human fear and anxiety because of similarities in behavioral responses and brain function. Studies of rhesus monkeys demonstrate that animals with an anxious temperament exhibit inappropriately exaggerated responses to fearful situations, extreme
asymmetrical
electrical activity in the right prefrontal cortex, and dysregulation of the
corticotropin-releasing factor
system. Similar findings have been observed in anxious or behaviorally inhibited children who are at greater risk of developing anxiety disorders later in life. Characterization of distinct behavioral and neurobiological features in anxious rhesus monkeys may one day form the basis of tools to identify children who are at risk to develop anxiety disorders and other stress-related problems later in life. Psychopharmacology Bulletin. 2004;38(Suppl 1):8-13.
...
PMID:Studying non-human primates: a gateway to understanding anxiety disorders. 1527 12
