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Query: UNIPROT:P01178 (oxytocin)
 15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Constitutive nitric oxide synthase (cNOS) was immunolocalized to study its role in osmotic regulation. Immunoreactivity was observed in all major hypothalamic osmoregulatory structures, the organum vasculosum laminae terminalis, subfornical organ, median preoptic nucleus, and supraoptic and paraventricular nuclei. These nuclei were compared in normal Long-Evans rats and homozygous Brattleboro rats with hereditary hypothalamic diabetes insipidus and in normal mice and mice with hereditary nephrogenic diabetes insipidus. About 50% of supraoptic neurons in Long-Evans rats and 90% in Brattleboro rats were cNOS immunopositive; a qualitatively similar difference occurred in the paraventricular nucleus. Mice with hereditary nephrogenic diabetes insipidus also showed a greater proportion of cNOS-positive supraoptic neurons (50%) than normal mice (20%). However, the number of cNOS-positive cells in the organum vasculosum laminae terminalis, subfornical organ, and median preoptic nucleus dis not differ significantly between diabetic and normal animals. The similar changes in cNOS in two mutant strains in which the only common feature is chronic osmotic stimulation shows that differences in vasopressin and oxytocin are not involved in the regulation of cNOS. The results suggest strongly that cNOS is involved in long term modulation of the hypothalamo-neurohypophysial system and, hence, body water and electrolyte homeostasis, and that cNOS is itself regulated by body osmotic status.
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PMID:Constitutive nitric oxide synthase in hypothalami of normal and hereditary diabetes insipidus rats and mice: role of nitric oxide in osmotic regulation and its mechanism. 861 10

In order to investigate the mechanism of action by which oxytocin induces penile erection, the effect of NG-nitro-L-arginine methyl ester (NAME) and NG-monomethyl-L-arginine (NMMA), inhibitors of nitric oxide (NO) synthase, injected into the paraventricular nucleus of the hypothalamus (PVN) on the response to oxytocin injected into the PVN was studied in male rats. NAME and NMMA, but not NG-mono-methyl-D-arginine (D-NMMA), which does not inhibit NO-synthase, prevented in a dose-dependent manner the response to oxytocin. NAME was 4-5 times more potent than NMMA. NAME prevention of the oxytocin effect was not observed when NAME was given together with L-arginine but not with D-arginine. Oxytocin-induced penile erection was prevented by the oxytocin antagonist d(CH2)5Tyr(Me)-Orn8-vasotocin and by methylene blue, an inhibitor of guanylate cyclase, but not reduced hemoglobin, a NO scavenger, given intracerebroventricularly (i.c.v.). In contrast, both methylene blue and hemoglobin were ineffective when injected into the PVN, unlike d(CH2)5Tyr(Me)-Orn8-vasotocin. Penile erection was induced also by sodium nitroprusside and hydroxylamine, two NO donors, injected into the PVN. Like the oxytocin effect, the NO donor response was prevented by i.c.v. d(CH2)5Tyr(Me)-Orn8-vasotocin and methylene blue, but not hemoglobin. In contrast, the three compounds were ineffective in preventing the NO donor response when injected into the PVN. The present results suggest that oxytocin induces penile erection by activating NO synthase in the PVN. NO in turn activates oxytocinergic neurons projecting to extra-hypothalamic areas that control the expression of this male sexual function by a guanosine cyclic 3':5'-monophosphate (cGMP) independent mechanism at least in the PVN.
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PMID:Oxytocin-induced penile erection. Role of nitric oxide. 871 73

Long-term (2-12 weeks) cultures of adult guinea-pig ventricular myocytes, cocultured with neurons derived from stellate or intrinsic cardiac ganglia, retain their functional properties (Horackova et al., 1993, 1994, 1995). The present study was designed to investigate the morphological and immunochemical properties of such neurons and their associated cardiomyocytes. Cultured myocytes studied by means of phalloidin-rhodamine (for F-actin) and an antibody raised against myomes revealed parallel myofibrils with striations typical of rod-shaped cardiomyocytes, even while myocytes changed from cylindrical to flattened form as they established intercellular contacts. Microtubular networks, identified by alpha-tubulin DM1A antibody, were arrayed longitudinally in myofibrils, being especially prominent during the formation of intercellular contacts between myocytes. Histochemically identified adult peripheral autonomic neurons cultured alone or with myocytes displayed a variety of shapes. alpha-Tubulin staining was associated with the somata and neurites of various-shaped neurons whether cultured alone or with myocytes. Cultured neurons derived from stellate and intrinsic cardiac ganglia also exhibited staining for the general neuronal marker PGP 9.5 (protein gene product 9.5), and for specific markers of the following neurochemicals: tyrosine hydroxylase, acetylcholinesterase, choline acetyltransferase, neuropeptide Y, vasoactive intestinal peptide, calcitonin gene-related peptide, bradykinin, oxytocin, and NADPH-diaphorase. These data indicate that: (a) adult ventricular myocytes cocultured with intrathoracic neurons retain the structural properties of adult myocytes found in vivo; (b) intrinsic cardiac and extrinsic intrathoracic neurons cultured alone or with cardiomyocytes display morphological characteristics similar to those of neurons studied in situ; (c) intrinsic cardiac and intrathoracic extracardiac neurons cultured alone or with cardiomyocytes display a variety of morphologies (unipolar, bipolar, and multipolar), larger and more multipolar neurons being present in cultures derived from stellate versus intrinsic cardiac ganglia; (d) such cultured neurons are associated with a number of neurochemicals, more than one chemical being associated with each neuron. This model presents an excellent opportunity to study the morphology of individual peripheral extracardiac and intracardiac neurons as well as their potential to produce various neurochemicals that are known to be involved in the neuromodulation of cardiomyocyte function.
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PMID:Morphological and immunohistochemical properties of primary long-term cultures of adult guinea-pig ventricular cardiomyocytes with peripheral cardiac neurons. 876 Aug 56

Nitric oxide (NO) is produced by the enzyme NO synthase (NOS) and may be involved in the regulation of nutrient and endocrine homeostasis via actions on neurones of the hypothalamic supraoptic (SON) and paraventricular (PVN) nuclei. The effects of water deprivation or food deprivation for 4 days on the abundance of messenger RNA encoding NOS in these nuclei in rats were examined using in situ hybridization. Water deprivation markedly increased the abundance of NOS mRNA in both the SON and PVN (225 +/- 11% of control, P < 0.05 and 261 +/- 34% of control, P < 0.01 respectively). NOS mRNA abundance also appeared to be increased in magnocellular accessory nuclei. Food deprivation decreased NOS mRNA abundance in the SON and PVN (42 +/- 6% and 52 +/- 7% of control respectively, both P < 0.05), while withdrawal of both food and water produced no significant net changes in the abundance of NOS mRNA. Treatment-induced alterations in NOS mRNA abundance were reflected by changes in NOS activity, as assessed by NADPH-diaphorase histochemistry, and NADPH-diaphorase staining was observed in neurones both positive and negative for oxytocin-like immunoreactivity. These findings suggest that NOS mRNA abundance, NOS enzymatic activity and presumably NO production are modulated in an activity-dependent manner in hypothalamic (magnocellular and parvocellular) neurones by alterations in fluid and nutrient homeostasis, and support data from other studies suggesting a role for NO in the central regulation of water and food intake in the rat.
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PMID:Food or water deprivation modulate nitric oxide synthase (NOS) activity and gene expression in rat hypothalamic neurones: correlation with neurosecretory activity? 880 71

The localization and distribution of nitric oxide synthase in the hypothalamus have been studied with an immunohistochemical technique using antibodies to neuronal rat nitric oxide synthase. Subsequent double-labeling experiments examined the colocalization patterns of nitric oxide synthase and several peptides. Our results demonstrate a widespread occurrence of nitric oxide synthase-immunoreactive nerve cell bodies and processes throughout the hypothalamus, especially in various parts of the preoptic region, in the supraoptic and paraventricular nuclei, the lateral hypothalamic area, the ventromedial and dorsomedial nuclei, the arcuate nucleus and various parts of the mammillary region. Double labeling experiments showed that nitric oxide synthase-like immunoreactivity coexists with substance P-like immunoreactivity in the medial preoptic area, with oxytocin-, cholecystokinin-and galanin message-associated peptide-like immunoreactivity in the supraoptic nucleus, with enkephalin, oxytocin- and corticotropin releasing factor-like immunoreactivity in the paraventricular nucleus and with enkephalin-like immunoreactivity in the arcuate nucleus. Furthermore, in the ventromedial nucleus, nitric oxide synthase-like immunoreactivity coexisted with enkephalin-, substance P-, and somatostatin-like immunoreactivity, and in the dorsomedial nucleus with enkephalin-, galanin message-associated peptide-and substance P-like immunoreactivity. In the mammillary region nitric oxide synthase-like immunoreactivity coexisted with enkephalin-, cholecystokinin-, and substance P-like immunoreactivity. Among these neuropeptides, enkephalin and substance P were most frequently found in nitric oxide synthase-immunoreactive neurons. We conclude that nitric oxide synthase-immunoreactive neurons contain neuropeptides in various parts of the hypothalamus, and that nitric oxide in the hypothalamus may be involved in a variety of neuroendocrine and autonomic functions.
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PMID:Immunohistochemical mapping of nitric oxide synthase in the rat hypothalamus and colocalization with neuropeptides. 881 20

A low dose of apomorphine (80 micrograms/kg s.c.), a mixed D1/D2 agonist that induces penile erection and yawning, increased the concentration of NO2-from 1.12 +/- 0.45 microM to 3.8 +/- 0.75 microM and NO3-from 5.53 +/- 0.82 to 11.25 +/- 2.30 microM in the dialysate collected from the paraventricular nucleus of the hypothalamus of male rats by in vivo microdialysis. The NO2-concentration was also increased by LY 171555 (50 micrograms/kg s.c.), a D2 agonist that induces penile erection and yawning, but not by SKF 38393 (5 mg/kg s.c.), a D1 agonist with no effect on these responses. Conversely, apomorphine's effect on NO2-was prevented by haloperidol (0.5 mg/kg i.p.), a mixed D1/D2 antagonist and L-sulpiride (25 mg/kg i.p.), a D2 antagonist, but not by the D1 agonist SCH 23390 (50 micrograms/kg s.c.), although all three compounds prevented penile erection and yawning. The apomorphine effect on NO2-, penile erection and yawning was also prevented by the nitric oxide synthase inhibitor NG-nitro-L-arginine methyl ester (200 micrograms i.c.v.). The nitric oxide scavenger haemoglobin (200 micrograms i.c.v.) also prevented the NO2-increase, but was ineffective against penile erection and yawning. In contrast, the oxytocin antagonist d(CH2)5Tyr(Me)-Orn8-vasotocin (1 microgram i.c.v.) and the guanylate cyclase inhibitor methylene blue (300 micrograms i.c.v.) had no effect on the NO2-increase, but did prevent the behavioural responses. We infer from this that dopamine agonists induce penile erection and yawning by acting on D2 receptors that increase nitric oxide synthase activity in the cell bodies of paraventricular oxytocinergic neurons projecting to extra-hypothalamic brain areas.
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PMID:Dopamine agonists increase nitric oxide production in the paraventricular nucleus of the hypothalamus: correlation with penile erection and yawning. 892 Dec 95

The effects of arginine vasotocin (AVT) were examined in isolated gar arteries (afferent branchial, ABA; conus arteriosus, CA; ventral aorta, VA) and veins (hepatic, HV; intestinal; ovarian). AVT (10(-11) - 10(-7) M) had no effect in CA, produced contraction in ABA and VA and stimulated relaxation in veins. In precontracted HV, AVT relaxation was dose-dependent, long-lived (> 30 min) and reduced total tension by 49.0 +/- 10.7%. EC50s for AVT, arginine vasopressin, oxytocin, desmopressin, and isotocin in gar HV were 1.4 +/- 0.3, 3.6 +/- 0.2, 5.3 +/- 1.7, 11.0 +/- 6.5, and 19.0 +/- 0.4 nM, respectively. AVT was more potent compared with isotocin. Strength of relaxation (percentage decrease in total tension) of AVT and structural analogs was similar (range = 32.5 to 55%). Endothelium removal did not alter percentage relaxation or sensitivity to AVT in HV. AVT relaxation was not inhibited by nitric oxide synthase inhibitors or propranolol or reversed by addition of methylene blue but it was significantly enhanced by indomethacin (10(-5) M). Arginine vasopressin-receptor antagonists (V1- or V2-type selectivity; 10(-6) M) were equally effective inhibitors, each blocked 99% of AVT relaxation. Forskolin (10(-6) M) and papaverine (10(-4) M) relaxed precontracted gar arteries and veins. The adenylyl cyclase inhibitors SQ 22536 and MDL 12,330A (10(-5) M) produced transient contraction and stable relaxation, respectively, but did not inhibit AVT-induced relaxation in HV. Atrial natriuretic peptide (3 x 10(-8) M) and sodium nitroprusside (10(-4) M) had no effect in precontracted HV. AVT acts directly on gar venous smooth muscle cells via a nonclassical AVP receptor, possibly by increasing [cAMP]. AVT is a potent vasoconstrictor in vertebrate vasculature but produces a novel relaxation in gar veins.
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PMID:Arginine vasotocin relaxation of gar (Lepisosteous spp.) hepatic vein in vitro. 892 55

We investigated the chemical and anatomical features of nitric oxide synthase (NOS)-containing neurons in the paraventricular and supraoptic nuclei in the rat hypothalamus using combinations of enzyme histochemistry, in situ hybridization and immuno-histochemistry. Neurons expressing NOS mRNA completely overlapped with NADPH-diaphorase-positive neurons. Topographical distribution of NOS was segregated from that of CRF-containing parvicellular neurons in the posterior paraventricular nucleus but overlapped with that of magnocellular neurons. In the paraventricular nucleus, 70% of oxytocin neurons contained NOS, which corresponded to one half of NOS neurons. About one third of vasopressin-immunoreactive neurons were NADPH-diaphorase-positive and the same proportion of NADPH-diaphorase-positive neurons were vasopressin-immunoreactive. In the supraoptic nucleus, 50% of oxytocin neurons were NADPH-diaphorase-positive, which corresponded to 40% of NOS neurons. About 25% of vasopressin neurons were NADPH-diaphorase-positive, and 30% of NADPH-diaphorase-positive neurons were vasopressin-immunoreactive. When NADPH-diaphorase histochemistry was performed first, subsequent immunostaining was markedly perturbed. Using fluoro-gold as a retrograde tracer, 4% of NADPH-diaphorase-positive neurons were shown to contribute to the descending projection to the spinal cord. About 40%-50% of NADPH-diaphorase-positive neurons exhibited Fos immunoreactivity after injection of lipopolysaccharide or hypertonic saline, while only 10%-15% of these neurons expressed Fos in response to immobilization or pain. Endogenous NO may be involved in the regulation of magnocellular functions, especially when the internal environment is disturbed.
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PMID:Nitric oxide synthase-containing magnocellular neurons of the rat hypothalamus synthesize oxytocin and vasopressin and express Fos following stress stimuli. 895 94

Moderate somatic stress inhibits gastric acid secretion. We have investigated the role of endogenously released NO in this phenomenon. Elevation of body temperature by 3 degrees C or a reduction of 35 mmHg (1 mmHg = 133 Pa) in blood pressure for 10 min produced a rapid and long-lasting reduction of distension-stimulated acid secretion in the rat perfused stomach in vivo. A similar inhibitory effect on acid secretion was produced by the intracisternal (i.c.) administration of oxytocin, a peptide known to be released during stress. Intracisternal administration of the NO-synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME) reversed the antisecretory effect induced by all these stimuli, an action prevented by intracisternal coadministration of the NO precursor, L-arginine. Furthermore, microinjection of L-NAME into the dorsal motor nucleus of the vagus nerve reversed the acid inhibitory effects of mild hyperthermia, i.v. endotoxin, or i.c. oxytocin, an action prevented by prior microinjection of L-arginine. By contrast, microinjection of L-NAME into the nucleus tractus solitarius failed to affect the inhibitory effects of hyperthermia, i.v. endotoxin, or i.c. oxytocin. Immunohistochemical techniques demonstrated that following hyperthermia there was a significant increase in immunoreactivity to neuronal NO synthase in different areas of the brain, including the dorsal motor nucleus of the vagus. Thus, our results suggest that the inhibition of gastric acid secretion, a defense mechanism during stress, is mediated by a nervous reflex involving a neuronal pathway that includes NO synthesis in the brain, specifically in the dorsal motor nucleus of the vagus.
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PMID:Inhibition of gastric acid secretion by stress: a protective reflex mediated by cerebral nitric oxide. 896 42

The hypothalamo-neurohypophysial system contains high levels of neuronal nitric oxide synthase and this increases further during times of neurohormone demand, such as that following osmotic stimulation. Using double in situ hybridization, we demonstrate here an increase in the expression of nitric oxide synthase messenger RNA by oxytocin neurons, but not vasopressin neurons, of the supraoptic nucleus at the time of lactation, when oxytocin is in demand due to another neuroendocrine stimulus, the milk-ejection reflex. In addition, using immunocytochemical retrograde tracing, we show that neurons of the subfornical organ, median preoptic nucleus and organum vasculosum of the lamina terminalis, which project to the supraoptic nucleus, contain nitric oxide synthase. These three structures of the lamina terminalis, together with the hypothalamo-neurohypophysial system, make up the forebrain osmoresponsive circuit that controls osmotically-stimulated release of oxytocin in the rat. The expression of nitric oxide synthase messenger RNA in the lamina terminalis was also shown to increase during lactation. The increases in nitric oxide synthase messenger RNA were not apparent during pregnancy. These results provide evidence for an integrated nitric oxide synthase-containing neural network involved in the regulation of the hypothalamo-neurohypophysial axis. The expression of nitric oxide synthase messenger RNA increases in this circuit during lactation and correlates with a reduction in the sensitivity of the circuit to osmotic stimuli also present in lactation but not pregnancy. As nitric oxide is believed to attenuate neurohormone release, it seems that the increased nitric oxide synthase messenger RNA expression detected here during lactation at a time of high oxytocin demand may be involved in reducing the sensitivity of the whole forebrain circuit to osmotic stimuli.
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PMID:Up-regulation of nitric oxide synthase messenger RNA in an integrated forebrain circuit involved in oxytocin secretion. 904 72


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