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Query: UNIPROT:P01178 (
oxytocin
)
15,767
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The structural genes for human prepro-arginine-vasopressin-neurophysin II (prepro-AVP-NPII; ARVP) locus and prepro-
oxytocin
-
neurophysin
-I (
prepro-OT-NPI
; OT) locus are closely linked separated by only 12 kilobasepairs of DNA. These two loci have been assigned to chromosome 20 by previous studies of somatic cell hybrids. We used Southern blots to analyze a restriction fragment length polymorphism detected by a probe for
prepro-OT-NPI
to determine the linkage relationships for the ARVP/OT loci using samples from the Centre d'Etude du Polymorphisme Humain (Paris, France) collection of families. The ARVP/OT loci demonstrated extremely close linkage with the
prodynorphin
(
PDYN
) locus, with no recombinants (theta of 0) and a log10 odds score of 5.2. Previous observations have shown the ARVP and
PDYN
peptides to be coexcreted in the same neurosecretory granules of some pituitary axons and that increased transcription of both genes occurs with osmotic stimulation. The combined ARVP/PT/
PDYN
group was also found to demonstrate linkage with other anonymous DNA segments on chromosome 20, including D20S4, D20S5, and D20S6. Using multilocus linkage analysis, the ARVP/OT loci map to the distal short arm of chromosome 20 about 15 centimorgans toward the telomere from the D20S5 locus, which is located near the middle of the short arm at 20p 12.21. These linkage relationships establish that the secretory and transcriptional associations of ARVP and
PDYN
extend to a close physical relationship in the human genome. Furthermore, the restriction fragment length polymorphism detected by these loci can serve as accurate markers in segregation studies of putative defects involving the OT, ARVP, or
PDYN
loci as well as provide a tool for studying the location of other genes, such as GH-releasing hormone.
...
PMID:Linkage relationships of human arginine vasopressin-neurophysin-II and oxytocin-neurophysin-I to prodynorphin and other loci on chromosome 20. 197 46
Expression of arginine-vasopressin (AVP),
oxytocin
(OT), dynorphin and enkephalin genes was studied with the in situ hybridization technique in embryonic rat brain serum-free cultures. Neurones were prepared from hypothalamus and extrahypothalamic structures of 16-day-old rat embryos. After 7 days in culture, AVP gene expression occurred in hypothalamic cultures only, whereas ProOT mRNAs were undetectable. By contrast,
prodynorphin
and proenkephalin mRNAs could be detected in both hypothalamic and extrahypothalamic cultures, however, with a higher number of cells containing proenkephalin mRNAs. These observations demonstrated that AVP, dynorphin and enkephalin, but not OT genes, can be expressed in cultures prepared from embryonic rat brain as young as 16 days old. This is the first report of an early expression of opioid peptide genes within the central nervous system suggesting that opioids could be involved in the early phases of nervous system development.
...
PMID:Expression of vasopressin and opiates but not of oxytocin genes studied by in situ hybridization in embryonic rat brain primary cultures. 198 Jun 42
Endogenous opioid peptides derived from all three opioid precursors have been isolated from the pituitary of mammalian species. While beta-endorphin of the anterior lobe was soon shown to be secreted into the circulation as a hormone, the dynorphins and the enkephalins were found to occur in relative small quantities too low for export and effects in the periphery. With respect to the
prodynorphin
family in the neural lobe convincing evidence has been accumulated for a role of dynorphin A(1-8) in the local control of the release of the hormone
oxytocin
. The function of the enkephalins in the anterior and neural lobes, in spite of many efforts with in situ hybridization, immunocytochemistry, receptor autoradiography and receptor binding and bioassays, is still elusive. Research should be directed into the role of enkephalins in different physiological states, developmental stages and in non-mammalian vertebrate species.
...
PMID:Opioid peptides in the pituitary: a hormone, a paracrine modulator and a peptide in search of a function. 769 35
We have investigated the influence of endogenous opioids on
oxytocin
secretion during pregnancy. In blood-sampled conscious rats on days 18 and 21 of pregnancy plasma
oxytocin
concentration, measured by radioimmunoassay, was significantly increased compared to non-pregnant or post-partum rats. On days 15, 18 and 21 of pregnancy but not in non-pregnant, early pregnant or post-partum rats, the opioid antagonist naloxone caused a significant increase in plasma
oxytocin
compared to vehicle injection, indicating activation of an endogenous opioid restraint over
oxytocin
secretion. Electrically stimulated neural lobes isolated from 16- and 21-day pregnant rats released more
oxytocin
than those from non-pregnant rats. However, naloxone (10(-5) M) was less effective at potentiating, and the kappa-opioid agonist U50,488 (10(-5)M) was less effective at inhibiting, stimulated release at the end of pregnancy than in non-pregnant rats suggesting desensitization of
oxytocin
nerve terminals to actions of endogenous opioids. Neural lobes from male rats drinking 2% saline for 4 days also showed desensitization of
oxytocin
nerve endings to naloxone. Neither neural lobe content of dynorphin A(1-8), an endogenous kappa-opioid, nor
prodynorphin
mRNA expression, measured by in situ hybridization histochemistry in the supraoptic nucleus altered during pregnancy. However, neural lobe content of Met5-enkephalin significantly decreased by day 21 of gestation suggesting enhanced release.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Endogenous opioid regulation of oxytocin secretion through pregnancy in the rat. 810 Apr 68
Oxytocin
is secreted during parturition to stimulate myometrial contractions and birth. Prior to the start of labour,
oxytocin
neurones undergo changes to prepare for optimal secretion during labour. Thus, during late pregnancy
oxytocin
secretion is limited by endogenous opioid inhibition. This does not appear to act at the
oxytocin
nerve terminals in the neural lobe since they in fact become desensitised to opioid inhibition, responding less to either the general opioid antagonist, naloxone, or to the specific kappa-opioid agonist U50,488, and kappa-receptor binding decreases. However, removal of opioid inhibition on
oxytocin
neurones by naloxone activates
oxytocin
cell bodies and there is an increase in the number of cells expressing Fos protein in the supraoptic nucleus. This action is mediated via mu- and not kappa-opioid receptors since norBinaltorphimine (kappa-antagonist) is ineffective. Endogenous opioids are likely to act pre-synaptically on inputs to
oxytocin
neurones, especially those from the brainstem since naloxone potentiates the firing rate response of
oxytocin
neurones to intravenous cholecystokinin administration which acts via noradrenergic neurones. The endogenous opioid, beta-endorphin may be responsible for inhibition of
oxytocin
neurones as both the peptide content and its precursor proopiomelanocortin mRNA content increase in the arcuate nucleus during pregnancy, whereas expression of the co-localized opioids,
prodynorphin
or proenkephalin A, in magnocellular neurones does not alter.
...
PMID:Pathways to parturition. 871 93
Vasopressin and
oxytocin
mRNAs, which are normally translated in the perikarya of magnocellular neurons, have recently been demonstrated to be also present in axons and nerve terminals which are located in the posterior pituitary. The physiological significance of this observation has not yet been resolved. In order to gain further insight into the function and plasticity of the peptidergic neuron the question was addressed whether axonal localization is a unique feature of the above-mentioned transcripts. Biochemical evidence is presented that magnocellular axons and nerve terminals also contain mRNA species encoding a member of the neurofilament protein family and the
prodynorphin
precursor. These data imply that axons may harbour a variety of additional protein-encoding transcripts. Furthermore, it is shown that in the mutant (Brattleboro) rat, which lacks detectable levels of vasopressin but which still transcribes the corresponding gene, axonal vasopressin but not
oxytocin
mRNA contents are dramatically reduced. Most likely, vasopressin transcripts are absent from the nerve terminals as a consequence of the impaired precursor biosynthesis in the cytoplasm of the mutant rat.
...
PMID:Diversity of mRNAs in the Axonal Compartment of Peptidergic Neurons in the Rat. 1210 10
Activation of melanocortin-4 receptors (MC4Rs) restrains feeding and prevents obesity; however, the identity, location, and axonal projections of the neurons bearing MC4Rs that control feeding remain unknown. Reexpression of MC4Rs on single-minded 1 (SIM1)(+) neurons in mice otherwise lacking MC4Rs is sufficient to abolish hyperphagia. Thus, MC4Rs on SIM1(+) neurons, possibly in the paraventricular hypothalamus (PVH) and/or amygdala, regulate food intake. It is unknown, however, whether they are also necessary, a distinction required for excluding redundant sites of action. Hence, the location and nature of obesity-preventing MC4R-expressing neurons are unknown. Here, by deleting and reexpressing MC4Rs from cre-expressing neurons, establishing both necessity and sufficiency, we demonstrate that the MC4R-expressing neurons regulating feeding are SIM1(+), located in the PVH, glutamatergic and not GABAergic, and do not express
oxytocin
, corticotropin-releasing hormone, vasopressin, or
prodynorphin
. Importantly, these excitatory MC4R-expressing PVH neurons are synaptically connected to neurons in the parabrachial nucleus, which relays visceral information to the forebrain. This suggests a basis for the feeding-regulating effects of MC4Rs.
...
PMID:MC4R-expressing glutamatergic neurons in the paraventricular hypothalamus regulate feeding and are synaptically connected to the parabrachial nucleus. 2515 44
Persistent alterations of proopiomelanocortin (Pomc) and mu-opioid receptor (Oprm1) activity and stress responses after alcohol are critically involved in vulnerability to alcohol dependency. Gene transcriptional regulation altered by alcohol may play important roles. Mice with genome-wide deletion of neuronal Pomc enhancer1 (nPE1
-/-
), had hypothalamic-specific partial reductions of beta-endorphin and displayed lower alcohol consumption, compared to wildtype littermates (nPE1
+/+
). We used RNA-Seq to measure steady-state nuclear mRNA transcripts of opioid and stress genes in hypothalamus of nPE1
+/+
and nPE1
-/-
mice after 1-day acute withdrawal from chronic excessive alcohol drinking or after water. nPE1
-/-
had lower basal Pomc and Pdyn (
prodynorphin
) levels compared to nPE1
+/+
, coupled with increased basal Oprm1 and Oprk1 (kappa-opioid receptor) levels, and low alcohol drinking increased Pomc and Pdyn to the basal levels of nPE1
+/+
in the water group, without significant effects on Oprm1 and Oprk1. In nPE1
+/+
, excessive alcohol intake increased Pomc and Oprm1, with no effect on Pdyn or Oprk1. For stress genes, nPE1
-/-
had lowered basal Oxt (
oxytocin
) and Avp (arginine vasopressin) that were restored by low alcohol intake to basal levels of nPE1
+/+
. In nPE1
+/+
, excessive alcohol intake decreased Oxt and Avpi1 (AVP-induced protein1). Functionally examining the effect of pharmacological blockade of mu-opioid receptor, we found that naltrexone reduced excessive alcohol intake in nPE1
+/+
, but not nPE1
-/-
. Our results provide evidence relevant to the transcriptional profiling of the critical genes in mouse hypothalamus: enhanced opioid and reduced stress gene transcripts after acute withdrawal from excessive alcohol may contribute to altered reward and stress responses.
...
PMID:Nuclear transcriptional changes in hypothalamus of Pomc enhancer knockout mice after excessive alcohol drinking. 3133 63
Understanding the neural components modulating feeding-related behavior and energy expenditure is crucial to combating obesity and its comorbidities. Neurons within the paraventricular nucleus of the hypothalamus (PVH) are a key component of the satiety response; activation of the PVH decreases feeding and increases energy expenditure, thereby promoting negative energy balance. In contrast, PVH ablation or silencing in both rodents and humans leads to substantial obesity. Recent studies have identified genetically-defined PVH subpopulations that control discrete aspects of energy balance (e.g.
oxytocin
(
OXT
), neuronal nitric oxide synthase 1 (NOS1), melanocortin 4-receptor (MC4R),
prodynorphin
(
PDYN
)). We previously demonstrated that non-
OXT
NOS1
PVH
neurons contribute to PVH-mediated feeding suppression. Here, we identify and characterize a non-
OXT
, non-NOS1 subpopulation of PVH and peri-PVH neurons expressing insulin-receptor substrate 4 (IRS4
PVH
) involved in energy balance control. Using Cre-dependent viral tools to activate, trace and silence these neurons, we highlight the sufficiency and necessity of IRS4
PVH
neurons in normal feeding and energy expenditure regulation. Furthermore, we demonstrate that IRS4
PVH
neurons lie within a complex hypothalamic circuitry that engages distinct hindbrain regions and is innervated by discrete upstream hypothalamic sites. Overall, we reveal a requisite role for IRS4
PVH
neurons in PVH-mediated energy balance which raises the possibility of developing novel approaches targeting IRS4
PVH
neurons for anti-obesity therapies.
...
PMID:Paraventricular, subparaventricular and periventricular hypothalamic IRS4-expressing neurons are required for normal energy balance. 3221 85
