UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) is a highly reactive gas that has been suggested to function as a neurotransmitter in the neuroendocrine system. In this work, we have evaluated the role of NO pathways in growth hormone (GH) secretion by assessing the effect of L-arginine infusion, a precursor of NO formation, and L-NAME, a nitric oxide synthase (NOS) inhibitor. The experiments were carried out on 7 adult beagle dogs. A saline infusion was carried out on all the dogs as a control test. L-arginine (infusion i.v. 10 g in 100 ml of saline, from t = 0 to 30 min) and L-nitro-arginine-methyl ester, L-NAME (infusion of 300 microg/kg in 120 ml of saline, from t = -30 to 45 min) were administered alone and together with growth hormone-releasing hormone (GHRH) (i.v. bolus at 0 min, at a dose of 100 microg), the synthetic GH secretagogue GHRP-6 (i.v. bolus at 0 min, at a dose of 90 microg), and the 5-HT1D serotonin receptor agonist sumatriptan, SUM (s.c. injection at the dose of 3 mg). Plasma cGH was determined by RIA. Results were evaluated by one-way analysis of variance, followed by the Newman-Keuls test for multiple comparisons. L-arginine administration resulted in a slight increase in plasma cGH in comparison with saline controls. Combined administration of L-arginine and GHRH enhanced cGH release in comparison with GHRH alone. L-NAME alone did not modify baseline cGH levels, but completely suppressed the GH release induced by GHRH or GHRP-6. It also strongly reduced, but did not abolish the effect of the two peptides (GHRH plus GHRP-6) administered together. Finally, administration of the 5-HT1D agonist SUM induced a significant cGH secretion in all dogs, a response which was not modified when L-NAME was administered in combination with SUM. In conclusion, our data show that inhibition of NO blunts both GHRH or GHRP-6-induced cGH release, and are compatible with the hypothesis that it acts by decreasing hypothalamic somatostatin release.
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PMID:Involvement of nitric oxide in the regulation of growth hormone secretion in dogs. 1159 77

Parvalbumin-containing fast-spiking interneurons in the cerebral cortex exhibit widespread electrical coupling, as do somatostatin-containing low-threshold spiking interneurons. Besides the classical neurotransmitter gamma-aminobutyric acid, these cortical interneurons may also release various neuropeptides including substance P (SP), as well as the freely diffusible messenger nitric oxide (NO). To investigate whether these two networks of interneurons might interact via these nonclassical messengers, we performed immunocytochemistry for SP and NO signaling pathways in rat somatic sensory cortex. SP was found in a subset of parvalbumin-positive cells concentrated in layers IV and V, whereas its receptor, NK1, was found in a subset of somatostatin-containing neurons (and also, at much lower levels, in a disjoint subset of parvalbumin-containing neurons). Only 4% of SP-containing axon terminals were apposed to NK1-positive dendrites, suggesting that in the cerebral cortex, SP may act predominantly as a paracrine neuromediator. Nitric oxide synthase-I (NOS-I), the synthetic enzyme for NO, was found almost exclusively in NK1-positive neurons; 95% of intensely somatostatin/NK1-positive neurons were also positive for NOS-I, and 94% of NOS-positive neurons were also positive for NK1. Immunoreactivity for soluble guanylyl cyclase (the NO receptor) was at high levels in the apical dendrites of layer V pyramidal neurons and in parvalbumin/SP-positive neurons. These data point to a novel reciprocal chemical interaction between two inhibitory networks in the rat neocortex.
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PMID:Substance P and nitric oxide signaling in cerebral cortex: anatomical evidence for reciprocal signaling between two classes of interneurons. 1174 51

Although the composition of the gastric innervation has been determined in animal models, relatively little known about the innervation of the human antro-pyloric region. We used immunocytochemical techniques to establish the localization and co-expression of neuropeptides and nitric oxide in the human antrum and upper duodenum. Our results demonstrate the existence of a clearly defined submucosal plexus in the antral region that is absent in rats and guinea pigs. The abundant innervation of the lamina propria contains 3 major nerve populations: VIP- and NOS-, SP- and CGRP-, and GRP-immunoreactive. For the first time, NOS-containing nerve fibers were observed throughout the length of the antral glands. Within the antrum somatostatin was confined to endocrine cells, however, at the pyloric sphincter both enteric plexi contained immunoreactive neurons and nerve fibres. Within the pyloric sphincter CGRP- and SP-immunoreactive fibres were significantly increased, correlating with the presence of large ganglia in the submucosal plexus. In conclusion, the organization and composition of the innervation of human antro-pylorus differed substantially from that reported in other mammals. The presence of an abundant mucosal innervation paralled by a well-defined submucosal plexus indicates that the functional regulation of the gastric-pyloric region will be distinct from that of smaller animal models.
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PMID:The innervation of the human antro-pyloric region: organization and composition. 1176 92

The present article concentrates on mechanisms that lead to the excitation of nociceptors in soft tissues and nociceptive neurones in the spinal dorsal horn. These mechanisms may contribute to the so-called unspecific low back pain. Properties of nociceptors in soft tissues: A nociceptive ending in soft tissue contains a multitude of receptor molecules in its membrane. The molecular receptors include binding sites for algesic substances that are released during painful stimulation or pathologic alterations of the tissue: bradykinin (BK), serotonin (5-HT), prostaglandin E2 (PG E2), adenosine triphosphate (ATP) and protons (H(+)). The excitation and sensitisation of nociceptors by these substances can be explained by the binding of the substances to the receptor molecules in the membrane of the receptive ending and ensuing opening of ion channels or activation of metabolic cascades. Purinergic receptor molecules in the membrane of nociceptors are activated by ATP. These receptors may be of particular importance for deep somatic pain, because ATP is present in large amounts in muscle tissue and is released during muscle damage. ATP-sensitive nociceptors appear to be distinct from nociceptors that can be excited by protons. The conduction of nociceptive information from muscle to the spinal cord is partly carried by unmyelinated fibres that possess tetrodotoxin-resistant (TTX-r) Na(+)-channels. Therefore, a drug that specifically blocks TTX-r Na(+)-channels would be a new attractive tool in the treatment of patients with deep somatic pain. Chronic muscle lesions such as a myositis have been shown to be associated with a higher innervation density of the tissue with free nerve endings that contain the neuropeptide substance P (SP). Many of these endings are likely to be nociceptors. Since a painful stimulus that acts on a muscle with increased nociceptor density will excite more nociceptors and elicit more pain, the increase in nociceptor density constitutes a peripheral mechanism for hyperalgesia. In muscle free nerve endings - many of which are nociceptive - the neuropeptides SP, calcitonin gene-related peptide (CGRP) and somatostatin have been shown to be present. These substances are released from the receptive endings in muscle when they are stimulated. SP and CGRP have a strong effect on blood vessels and induce local vasodilatation and oedema. The local oedema in the vicinity of the nociceptor is associated with the release of BK from plasma proteins, which increases the excitability of the nerve ending (see below). Thus, a local vicious cycle forms that may contribute to the formation of trigger points. Sensitisation of nociceptors and peripheral hyperalgesia: Nociceptors are easily sensitised, i.e. following a conditioning stimulus they are more sensitive to the unconditioned stimulus. In animals and humans, the responses to injections of BK can be increased by 5-HT or PG E2. The responses of muscle nociceptors to mechanical stimuli are likewise enhanced after administration of BK. During overuse, ischemia or inflammation of soft tissues, the tissue concentrations of BK, PG E2, and 5-HT are elevated and sensitise muscle nociceptors. A sensitised nociceptor is excited and elicits pain when innocuous mechanical stimuli act on the muscle, e.g. during contractions or stretch. Therefore, in chronically altered soft tissues, weak everyday stimuli are likely to cause pain. Mechanisms at the spinal level: In experiments on rats in which a myositis of the gastrocnemius-soleus (GS) muscle was induced experimentally, the effects of a peripheral painful lesion on the discharge behaviour of sensory dorsal horn neurones were studied. One of the main effects of the myositis was an expansion of the input (target) region of the muscle nerve, i.e. the population of dorsal horn neurones responding to an electrical standard stimulus applied to the GS muscle nerve grew larger. One reason for the myositis-induced expansion of the input region is hyperexcitability of the neurones caused by the release of SP and glutamate from the spinal terminals of muscle afferents with ensuing activation of NMDA channels in dorsal horn neurones (central sensitisation). The central sensitisation is of clinical importance because it can explain the hyperalgesia and spread of pain in patients. In contrast to excitability, the resting activity of dorsal horn neurones - which is likely to induce spontaneous pain in patients - does not appear to depend on the release of SP and glutamate but on the concentration of nitric oxide (NO) in the spinal cord. A pharmacological block of the NO synthesis led to a significant increase in background activity without affecting the excitability of the dorsal horn neurones. Such an increase in background activity was observed exclusively in nociceptive neurones, i.e. a local lack of NO in the spinal cord induces spontaneous pain. According to data from animal experiments, a decrease in the spinal NO concentration occurs as a sequel of a chronic muscle lesion; therefore, a lack of NO is a probable factor for the induction of chronic spontaneous pain. Normally, lesion-induced pain subsides and does not develop into chronic pain. The mechanisms governing the return to normal neuronal behaviour after a peripheral lesion are not well studied. Probably, the activation of inhibitory mechanisms, e.g. increased spinal synthesis of GABA or elevated activity of the descending antinociceptive system contribute to the restoration of normal function. The final step in the transition from acute to chronic pain are structural changes that perpetuate the functional changes. In the rat myositis model, an increase in the number of synapses on the surface of NO-snythesizing cells was present 8 h following induction of the myositis. These data show that structural changes appear quite early in the development of a painful disorder. A novel hypothesis for the development of chronic pain states that a strong nociceptive input to the spinal cord leads to cell death predominantly in inhibitory interneurones. Most of these interneurones are assumed to be tonically active; when their number decreases, the nociceptive neurones are chronically disinhibited and elicit continuous pain also in the absence of a noxious stimulus.
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PMID:[Pathophysiology of low back pain and the transition to the chronic state - experimental data and new concepts]. 1179 44

During chronic total parenteral nutrition (TPN), liver glucose uptake and lactate release are markedly elevated. However, in the presence of an infection, hepatic glucose uptake and lactate release are reduced. Glucose delivery (the product of liver blood flow and inflowing glucose concentration) is a major determinant of liver glucose uptake. Hepatic blood flow is increased during infection, and increased nitric oxide (NO) biosynthesis is thought to contribute to the increase. Our aim was to determine if the increase in liver blood flow served to limit the infection-induced decrease in hepatic glucose uptake and metabolism. Chronically catheterized conscious dogs received TPN for 5 days at a rate designed to match daily basal energy requirements. On the third day of TPN administration, a sterile (SHAM) or Escherichia coli (E. coli)-containing (INF) fibrin clot was implanted in the peritoneal cavity. Forty-two hours later, somatostatin was infused with intraportal replacement of insulin (10 +/- 2 v 23 +/- 2 microU/mL, SHAM v INF, respectively) and glucagon (22 +/- 4 v 90 +/- 8 pg/mL) to match concentrations observed in sham and infected animals. Tracer and arteriovenous difference techniques were used to assess hepatic glucose metabolism. Following a 120-minute basal sampling period, sham and infected animals received either intraportal saline or N(omega)-nitro-L-arginine (L-NNA; 37 microg x kg(-1) x min(-1)) infusion for 180 minutes. Isoglycemia (120 mg/dL) was maintained with a variable glucose infusion. In the infected group L-NNA infusion decreased hepatic arterial blood flow (23.3 +/- 0.7 to 8.6 +/- 0.5 mL x kg(-1) x min(-1)), but not portal vein blood flow. Neither portal vein nor hepatic artery blood flow were altered by L-NNA infusion in the sham group. Hepatic glucose uptake and lactate metabolism were not altered by L-NNA infusion in either group. In summary, during infection, an increase in NO biosynthesis contributes to the increase in hepatic arterial blood flow, while it exerts no effect on hepatic glucose metabolism.
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PMID:Impact of intraportal N(omega)-nitro-L-arginine infusion on hepatic glucose metabolism in total parenteral nutrition-adapted dogs: interaction with infection. 1188 60

Somatostatin [somatotropin release-inhibitory factor (SRIF)] has widespread actions throughout the gastrointestinal tract, but the receptor mechanisms involved are not fully characterized. We have examined the effect of selective SRIF-receptor ligands on intestinal peristalsis by studying migrating motor complexes (MMCs) in isolated segments of jejunum from rats, mice, and sst(2)-receptor knockout mice. MMCs were recorded in 4- to 5-cm segments of jejunum mounted horizontally in vitro. MMCs occurred in rat and mouse jejunum with intervals of 104.4 +/- 10 and 131.2 +/- 8 s, respectively. SRIF, octreotide, and BIM-23027 increased the interval between MMCs, an effect fully or partially antagonized by the sst(2)-receptor antagonist Cyanamid154806. A non-sst(2) receptor-mediated component was evident in mouse as confirmed by the observation of an inhibitory action of SRIF in sst(2) knockout tissue. Blocking nitric oxide generation abolished the response to SRIF in rat but not mouse jejunum. sst(2) Receptors mediate inhibition of peristalsis in both rat and mouse jejunum, but a non-sst(2) component also exists in the mouse. Nitrergic mechanisms are differentially involved in rat and mouse jejunum.
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PMID:Somatostatin sst(2) receptors inhibit peristalsis in the rat and mouse jejunum. 1189 21

LY315902 is an analogue of GLP-1 that yields a reduced clearance and longer half-life. The aim of the study is to assess the effect of LY315902 on fasting gastrointestinal motility, somatostatin and insulin release. Sprague-Dawley rats were fitted with three bipolar electrodes, 15, 25 and 35 cm distal to the pylorus. The effect of LY315902 and GLP-1 on migrating myoelectric complex (MMC) cycle length, duration and propagating velocity of activity fronts was studied for 60 min in conscious animals. The effect of LY315902 and GLP-1 on fasting small bowel motility was dose-dependent and treatment with exendin (9-39)amide, a GLP-1 receptor antagonist, together with LY315902 and GLP-1 completely antagonised the inhibitory effect of LY315902 and GLP-1 on fasting small bowel motility. Pretreatment with the nitric oxide (NO) synthase inhibitor N(omega)-nitro-L-arginine (L-NNA) partly blocked the action of both LY315902 and GLP-1. Plasma insulin concentrations were not different from controls during infusion of LY315902 or GLP-1, while somatostatin concentrations were significantly higher during LY315902 and GLP-1 compared to saline. LY315902 has a longer duration of inhibitory action on the MMC than GLP-1, albeit similar effects on plasma insulin and somatostatin concentrations. The effect of LY315902 on motor control is mediated through the GLP-1 receptor and seems partly dependent on the L-arginine/NO pathway.
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PMID:Glucagon-like peptide-1 analogue LY315902: effect on intestinal motility and release of insulin and somatostatin. 1204 15

Exocrine pancreatic secretion is regulated by hormone-hormonal and neural-hormonal interactions involving several regulatory peptides and neurotransmitter from the gut, the pancreas and the vagus nerve. The roles of the gastrointestinal peptides including secretin, CCK, neurotensin, motilin, PYY and pancreatic islet hormones including insulin, pancreatic polypeptide and somatostatin have been established. Interactions among secretin, CCK and neurotensin produce synergistic stimulatory effect. Motilin modulates the cyclic pattern of pancreatic secretion while local insulin provides a permissive role for the action of secretin and CCK at physiological concentration. Somatostatin, PYY and pancreatic polypeptide are inhibitory regulators, acting either on the release of secretin and CCK or on the action of the two stimulatory hormones. The vagal afferent-efferent pathway mediates the actions of many of these regulatory peptides, particularly of secretin and CCK. Acetylcholine and nitric oxide are the neurotransmitters known to mediate the actions of secretin and CCK. Serotonin (5-HT) released from enterochromaffin cells in the intestinal mucosa and nerve terminals of the enteric nervous system and intrapancreatic nerves may be involved in both stimulatory and inhibitory mechanism through its various receptor subtypes. 5-HT also mediates the action of secretin and CCK. The regulatory roles of neuropeptides, PACP and GRP, are now established, whereas those of others are being uncovered. Pancreatic juice provides both positive and negative feedback regulation of pancreatic secretion through mediation of both secretin- and CCK-releasing peptides. Three CCK-releasing peptides have been purified: monitor peptide from pancreatic juice, diazepam-binding inhibitor from porcine intestine, and luminal CCK-releasing factor from rat intestinal secretion. All have been shown to stimulate CCK release and pancreatic enzyme secretion. Pancreatic phospholipase A2 from pancreatic juice and intestinal secretion appears to function as a secretin-releasing peptide. However, the detailed map of neurohormonal regulatory pathways of exocrine pancreatic secretion is yet to be constructed.
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PMID:Neural hormonal regulation of exocrine pancreatic secretion. 1212 Feb 11

Although it is well established that severe chronic hyperglycemia is associated with microvascular disease, it is not known whether transient hyperglycemia similar to that observed with impaired glucose tolerance or early Type 2 diabetes contributes to this pathology by altering microvascular function. To test the hypothesis that acute hyperglycemia decreases microvascular vasodilator responsiveness in human skin, we measured the cutaneous vasodilator response to local warming. This response can be divided into two phases, an initial peak that relies predominantly on local sensory nerves and a second slower phase that is largely dependent on endothelial nitric oxide. We reasoned that a change in one or both phases would indicate a change in the corresponding mechanism(s) with hyperglycemia. Twenty-eight healthy volunteers (14 women, 14 men) were randomly divided into three groups, corresponding to 6 h of euglycemia (n = 8), 6 h when glucose was clamped at approximately 7 mmol/l (n = 10), or 6 h when glucose was varied to mimic a postprandial pattern (i.e., peak glucose approximately 11.1 mmol/l) commonly observed in individuals with impaired glucose tolerance (n = 10). Insulin concentrations in all instances were maintained at approximately 65 pmol/l by means of continuous infusions of somatostatin and insulin. Glucagon and growth hormone were also continuously infused to maintain their basal concentrations. Despite substantial differences in both the level and pattern of glucose concentrations, neither maximum cutaneous vasodilation nor the pattern of the vasodilator response to local warming differed over the 6 h of study. We conclude that acute hyperglycemia similar to levels commonly observed in people with either early Type 2 diabetes or impaired glucose tolerance does not alter the vasodilator response to local warming of the skin in humans.
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PMID:Cutaneous vascular function during acute hyperglycemia in healthy young adults. 1223 21

Somatostatin and its receptors (ssts) are found in the retina. Recent evidence suggested the involvement of sst(2A) and sst(2B) receptors in the regulation of nitric oxide (NO) (). In this study, we investigated further the localization of sst(1), sst(3)-sst(5), and the possible involvement of all subtypes, present in the rat retina, in the regulation of NO production. Polyclonal antibodies raised against sst(1), sst(3-5) were applied to 10-14 micro m cryostat sections of rat retinas fixed in paraformaldehyde. NADPH-diaphorase reactivity was assessed histochemically. The levels of NO in rat retinal explants were assessed by the production of its stable metabolites NO(2)(-) and NO(3)(-). sst(1) immunofluorescence was detected mainly in the retinal pigment epithelium, blood vessels of the inner retina, where it was colocalized with NADPH-diaphorase, and in processes of the inner plexiform layer (IPL). sst(4) immunohistochemistry was found in ganglion cell bodies, where it was colocalized with NADPH-diaphorase, processes of the IPL and ganglion cell layer, and optic nerve fibers. sst(3) or sst(5) immunostain was not detected. Somatostatin increased NO production and this effect was mimicked only by the sst(2) specific analog L-779976. The sst(2) antagonist CYN-154806 blocked the L-779976 increase of NO production. These results present conclusive evidence that somatostatin's role in the retina involves the regulation of NO by an sst(2) mechanism.
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PMID:Somatostatin mediates nitric oxide production by activating sst(2) receptors in the rat retina. 1238 75

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