Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

NADPH-diaphorase activity (NADPH-DA), a marker of neural nitric oxide synthase, was found in many postganglionic nerve cell bodies in the adult rat superior cervical ganglion (SCG) after colchicine treatment, postganglionic nerve trunk ligation or ganglion culture. NADPH-DA colocalized with immunoreactivity to tyrosine hydroxylase (TH), serotonin, vasoactive intestinal peptide (VIP), neuropeptide Y (NPY), methionine-enkephalin and somatostatin. Almost all cells showing NADPH-DA were TH-immunoreactive, although several TH-immunoreactive cells lacked NADPH-DA. While suggesting that nitric oxide has an important role in the neuronal modulation in the synaptic transmission in the rat SCG, our results point out that nitric oxide synthesis is confined to a subpopulation of ganglion neurons. Our findings confirm the idea that the superior cervical ganglion consists of several subpopulations in which noradrenaline is colocalized with other transmitter or neuropeptide. Only about one-fourth of serotonin-immunoreactive neurons contained NADPH-DA. Similarly, the neuropeptides studied showed only partial colocalization with NADPH-DA. Our results thus suggest that nitric oxide is not associated with any particular transmitter or peptide.
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PMID:NADPH-diaphorase activity and its colocalization with transmitters and neuropeptides in the postganglionic neurons of the rat superior cervical ganglion. 795 6

Putative nitric oxide-containing neurons in the rat amygdala were studied using reduced nicotinamide adenine dinucleotide phosphate diaphorase histochemistry. All nuclei of the amygdala contained subpopulations of diaphorase-positive neurons, but the staining intensity of different subpopulations varied. Intensely stained neurons exhibited labeling of the cell body and the entire dendritic arborization. The lateral nucleus had the greatest concentration of intensely labeled cells. Many intensely labeled neurons were located along nuclear boundaries and fiber bundles. In addition to neuronal staining, there was a differential staining of the neuropil in different amygdaloid nuclei. In the basolateral and cortical nuclei the diaphorase-positive cells were non-pyramidal neurons that resembled those containing somatostatin and neuropeptide Y. The distribution and neuronal morphology of labeled neurons in the central nucleus and anterior amygdaloid area suggests that diaphorase-positive cells in these areas may be cholinergic. Recent studies have shown that the enzyme responsible for neuronal diaphorase activity is actually the synthetic enzyme for the newly discovered neurotransmitter nitric oxide. Since there is evidence that nitric oxide plays an important role in excitotoxic neuronal degeneration, the neurons identified in the present study may be involved in degenerative diseases of the amygdala.
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PMID:Identification of putative nitric oxide producing neurons in the rat amygdala using NADPH-diaphorase histochemistry. 809 45

This study set out to identify the neurotransmitters involved in autonomic vasodilatation of the guinea pig uterine artery. Non-noradrenergic, paracervical neurons supplying this artery contain at least four neuropeptides: vasoactive intestinal peptide (VIP), neuropeptide Y (NPY), dynorphin A (1-17) and somatostatin, probably in addition to acetylcholine. Transmural nerve stimulation of arterial segments precontracted with phenylephrine (3 x 10(-7) mol l-1 and treated with guanethidine (10(-6) mol l-1), produced relaxations which varied in form with the frequency of stimulation and the length of the pulse train. The relaxations were monophasic at low frequencies (< 2 Hz), and were biphasic at higher frequencies (> 5 Hz) and with longer pulse trains (> 50 pulses). Neither phase of the relaxations was reduced by hyoscine (10(-6) mol l-1), or by removal of the endothelium. The faster phase of the relaxations was selectively reduced (by 61%) during treatment with L-nitro-arginine methyl ester (L-NAME; up to 3 x 10(-5) mol l-1). This reduction was reversed by an excess of L-arginine, indicating that the fast relaxation was mediated by nitric oxide, possibly acting as a neurotransmitter. The slower phase of the neurogenic relaxation was preferentially reduced (by 43%) by the endopeptidase, trypsin (1-3 micrograms.ml-1). As VIP is the only currently identified peptide present in the paracervical neurons which causes vasodilatation, it is likely that VIP, or a closely-related peptide, is the transmitter responsible for the slow relaxation. Acetylcholine and an opioid peptide also seem to be released from the vasodilator neurons, but their effects were small, and may have been restricted to pre-synaptic sites. The slower neurogenic relaxations were inhibited by exogenous neuropeptide Y (68% reduction in amplitude), and were slightly potentiated by somatostatin (21% increase in amplitude). Therefore, endogenous stores of these peptides may also contribute to the sum effect of stimulating the paracervical vasodilator neurons. In conclusion, many different substances may act as autonomic co-transmitters from these pelvic vasodilator neurons.
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PMID:Co-transmission from autonomic vasodilator neurons supplying the guinea pig uterine artery. 809 24

The effects of somatostatin (ST) on the regulation of the glomerular filtration rate have not been extensively studied. The present experiments were designed to analyze this possible relationship. ST alone did not modify the planar cell surface area (PCSA) of cultured rat mesangial cells (CRMC), but it prevented and reversed the reduction in PCSA induced by 10 nM angiotensin II (Ang II) in a dose- and time-dependent manner. ST (1 microM) completely prevented and reversed the increase in the myosin light chain phosphorylation induced by 10 nM Ang II. Incubation with pertussis toxin (PT, 0.5 micrograms/ml) inhibited the effect of ST on the Ang II-dependent changes in PCSA, but this effect was not inhibited by the blockade of the vasodilatory prostaglandins (indomethacin, 10 microM) or nitric oxide (L-N-methyl-arginine, 0.2 mM) synthesis. 2',5'-dideoxyadenosine (DDA, 0.1 mM), an adenylate cyclase blocker, and methylene blue (MB, 30 microM), a soluble guanylate cyclase blocker, did not interfere with the ST inhibitory effect on the Ang II-dependent reduction in PCSA of rat mesangial cells. ST also blocked the reduction in PCSA induced by phorbol myristate acetate (PMA, 300 nM). ST was also able to prevent and revert the Ang II dependent reduction in glomerular cross-sectional area of isolated rat glomeruli, also in a dose- and time-dependent fashion. Finally, intravenous administration of ST (200 ng/kg body wt as a bolus plus a continuous injection of 25 ng/min/kg body wt) partially blocked the reduction in GFR (measured as CIn) and RPF (measured as CPAH) and the increase in filtration fraction induced by the intravenous administration of Ang II (1.7 micrograms/min/kg body wt) in anesthetized rats. In summary, these results suggest that ST could antagonize the renal actions of Ang II, increasing the GFR and RPF decreased by Ang II, and this effect could be dependent, at least partially, on a direct relaxing effect of ST on mesangial cells.
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PMID:Somatostatin antagonizes angiotensin II effects on mesangial cell contraction and glomerular filtration. 809 76

Histochemical staining was used to demonstrate that intramural neurons of the gallbladder contain NADPH-diaphorase, and therefore are likely to produce nitric oxide. A subset of the neurons in the gallbladders of the guinea pig, gerbil, opossum, dog, and human stained positively for the enzyme. In the guinea pig, all neurons that were immunoreactive for vasoactive intestinal peptide (VIP), also contained NADPH-diaphorase. Furthermore, neurons that were immunoreactive for neuropeptide Y, which have been shown to be immunoreactive for substance P and somatostatin as well, rarely contained NADPH-diaphorase. It is suggested that the VIP/NADPH-diaphorase-containing neurons represent intrinsic inhibitory motor neurons of the gallbladder, and that these neurons may have a role in the relaxation of the muscularis during gallbladder filling.
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PMID:NADPH-diaphorase and VIP are co-localized in neurons of gallbladder ganglia. 831 13

Recent studies have shown that somatostatin modulates lymphocyte function, but the effects of somatostatin on macrophage function are not clearly defined. In the present study, peritoneal macrophages (Mluminal diameter) obtained from male rats were treated in vitro with somatostatin or octreotide and their effects on the release of hydrogen peroxide (H2O2), nitrite, and tumor necrosis factor (TNF) determined. Macrophages treated with somatostatin (10(-9) M to 10(-7) M) or octreotide (10(-8) M and 10(-7) M) released significantly greater amounts of PMA-stimulated H2O2 than did the untreated controls. In addition, 10(-9) M of somatostatin significantly enhanced PMA-stimulated H2O2 release by LPS-treated Mluminal diameter. Octreotide had no effect on H2O2 release by LPS-treated Mluminal diameter. At concentrations of 10(-14) M, 10(-13) M, or greater than 10(-8) M, somatostatin or octreotide suppressed nitrite release by Mluminal diameter. Somatostatin or octreotide did not affect nitrite release by LPS-treated Mluminal diameter. On the other hand, Mluminal diameter treated with 10(-11) M of somatostatin or octreotide released greater amounts of TNF than did the untreated controls. In contrast, TNF release by Mluminal diameter treated with 10(-9) M to 10(-5) M of somatostatin or 10(-7) M to 10(-5) M of octreotide was less than that of the controls. Anti-TNF antibody (1:1000) caused a reduction in the release of H2O2 and nitrite. These findings demonstrate that somatostatin and octreotide modulate the release of H2O2, nitric oxide, and TNF by Mluminal diameter depending on the concentration of hormones used.
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PMID:Somatostatin and macrophage function: modulation of hydrogen peroxide, nitric oxide and tumor necrosis factor release. 857 Aug 54

The cellular abundance of neuronal nitric oxide synthase and somatostatin messenger RNAs was compared in the caudate nucleus, putamen and sensorimotor cortex of Huntington's disease and control cases. Neuronal nitric oxide synthase messenger RNA was significantly decreased in the caudate nucleus and putamen, but not in the sensorimotor cortex in Huntington's disease; the decrease in neuronal nitric oxide synthase messenger RNA became more pronounced with the severity of the disease. Somatostatin gene expression was significantly decreased in the dorsal putamen in Huntington's disease, but was essentially unchanged in all other regions examined. The density of neurons expressing detectable levels of neuronal nitric oxide synthase messenger RNA was reduced in the striata of Huntington's disease cases with advanced pathology; the density of neurons expressing detectable levels of somatostatin messenger RNA was similar in control and Huntington's disease cases. Neuropeptide Y-, somatostatin- and NADPH-diaphorase-positive neurons were consistently present throughout the striatum across all the grades of the disease. Neuronal nitric oxide synthase and NADPH-diaphorase activity (a histochemical marker for nitric oxide synthase-containing neurons) co-localize with somatostatin and neuropeptide Y in interneurons in the human striatum and cerebral cortex. Although the neurodegeneration associated with Huntington's disease is most evident in the striatum (particularly the dorsal regions), neuronal nitric oxide synthase/neuropeptide Y/somatostatin interneurons are relatively spared. Nitric oxide released by neuronal nitric oxide synthase-containing neurons may mediate glutamate-induced excitotoxic cell death, a mechanism proposed to be instrumental in causing the neurodegeneration seen in Huntington's disease. The results described here suggest that although the population of interneurons containing somatostatin, neuropeptide Y and neuronal nitric oxide synthase do survive in the striatum in Huntington's disease they are damaged during the course of the disease. The results also show that the reduction in neuronal nitric oxide synthase and somatostatin messenger RNAs is most pronounced in the more severely affected dorsal regions of the striatum. Furthermore, the loss of neuronal nitric oxide messenger RNA becomes more pronounced with the severity of the disease; thus implying a down-regulation in neuronal nitric oxide synthase messenger RNA synthesis, and potentially neuronal nitric oxide synthase protein levels, in Huntington's disease.
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PMID:Decreased neuronal nitric oxide synthase messenger RNA and somatostatin messenger RNA in the striatum of Huntington's disease. 873 28

1. A possible interaction between cyclic AMP and nitric oxide (NO) in mediating the relaxant effect of vasoactive intestinal polypeptide (VIP) on intestinal smooth muscle cells has been investigated. The effects of the inhibitor of NO synthesis, NG-nitro-L-arginine methyl ester (L-NAME), have been studied on VIP-, forskolin-, and 8 bromo-cyclic AMP- induced relaxation of cells, dispersed by enzymatic digestion of muscle strips from the circular layer of guinea-pig ileum. 2. VIP alone did not modify the length of isolated muscle cells. By contrast, when the cells were contracted by cholecystokinin octapeptide, CCK8 (10 nM), VIP inhibited this contraction, inducing a concentration-dependent relaxation of the cells. Maximal relaxation was induced by 1 microM VIP (EC50 = 408.2 +/- 16.7 pM). 3. N-ethylmaleimide, inhibitors of adenylate cyclase or somatostatin, abolished the relaxing effect of VIP. (R)-p-cAMPs, an antagonist of cyclic AMP on protein kinase A also inhibited the VIP-induced relaxation by 92.1 +/- 6.3%. Inhibitors of nitric oxide synthase (NOS), L-NAME and L-NMMA, partially inhibited VIP-induced relaxation. The effect of L-NAME was reversed by L-arginine but not by D-arginine. 4. (R)-p-cAMPS and L-NAME also inhibited the cell relaxation induced either by forskolin which directly stimulates adenylate cyclase activity or 8-bromo-cyclic AMP, an analogue of cyclic AMP. 5. When cells were incubated for 30 min with dexamethasone 10 microM, a glucocorticoid known to decrease the synthesis of iNOS, the relaxing effect of a maximal concentration of VIP was decreased by 52 +/- 4% and L-NMMA had no further effect on this residual VIP-induced relaxation. Milrinone, a phosphodiesterase type III inhibitor, potentiated the relaxant effect of VIP. 6. These data demonstrate that the intracellular pathway mediating the relaxant effect of VIP in intestinal smooth muscle cells includes the sequential activation of adenylate cyclase, protein kinase A, activation of NOS and finally production of NO and cyclic GMP. NO could in turn regulate the cyclic AMP-dependent pathway of cell relaxation.
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PMID:VIP-induced relaxation of guinea-pig intestinal smooth muscle cells: sequential involvement of cyclic AMP and nitric oxide. 876 68

The possible involvement of nitric oxide in the regulation of intestinal ion transport induced by neuropeptide Y (NPY) was investigated by evaluating the effects of NG-methyl-L-arginine (L-NMA), L-arginine and S-nitroso-N-acetylpenicillamine (SNAP) on NPY activity in mouse ileum mounted in Ussing chambers in vitro. Serosal NPY (10 nM) produced a sustained decrease in basal transmural short circuit current (Isc) and potential difference without altering the tissue conductance. Pretreatment of tissues with L-arginine (3 mM), but not D-arginine (10 mM), blocked the NPY-mediated changes in Isc. This L-arginine effect on NPY activity was reversed by L-NMA (3 mM), and not by NG-methyl-D-arginine (10 mM). The L-arginine effect on NPY activity was concentration-related with an A50 (95% CL) value of 1.6 (0.9-2.3) mM. In contrast to L-arginine, L-NMA (1 mM) pretreatment of tissues produced an enhancement of NPY activity, resulting in a 3.8-fold leftward displacement of the NPY concentration-response curve; NG-methyl-D-arginine was without effect. The effect of L-NMA on NPY activity was concentration-related with an A50 (95% CL) value of 45.3 (23.2-68.8) microM. Serosal application of SNAP, a nitric oxide donor, produced a concentration-related decrease in basal Isc and potential difference without altering tissue conductance with an A50 (95% CL) value of 22.5 (11.1-40.5) microM. Pretreatment of tissue with SNAP (100 microM) reduced the NPY activity with rightward displacement of NPY concentration-response curve. Pretreatment of tissues with L-arginine also blocked the reduction of Isc by [D-Pen2, D-Pen5]enkephalin (10-30 nM), H2N-Tyr-D-Ala-Phe-Glu-Val-Val-Gly-NH2 (10-30 nM) and somatostatin (0.3-1.0 microM), but had no effect on norepinephrine (0.1-0.3 microM)-induced decrease in mouse ileal Isc. These results show that [fgc]l-arginine and SNAP block NPY-mediated changes in ion transport, suggesting that nitric oxide may play a role in the regulation of NPY-mediated ion transport in the mouse ileum.
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PMID:Nitric oxide modulates neuropeptide Y regulation of ion transport in mouse ileum. 876 51

Tumor necrosis factor (TNF alpha) has been shown to inhibit insulin release and it has been postulated to-be an important effector in islet rejection. We studied the effect of cryopreservation on glucose oxidation rate (GOR), lipid synthesis, hormone secretion (insulin, glucagon, somatostatin, thyrotropin-releasing hormone), and cyclic guanosine 3',5'-monophosphate (cGMP) content of human islets, in the presence or absence of TNF alpha, looking for changes that could explain a different susceptibility to rejection for cryopreserved islets. Islets were isolated from multiple organ donor pancreata by collagenase digestion. The islets were then cultured for 7 days, cryopreserved (-0.25 degrees C/min), and stored in liquid N2. After 24 h of culture, thawed islets were cultured for an other 24 h in the presence or absence of TNF alpha. Islets were then washed to remove the cytokine and incubated in Krebs-Ringer bicarbonate (5 or 20 mM glucose), and both the cGMP content of the islets and the hormone concentration in the medium were determined by radio-immunoassay. GOR was measured as the production of 14CO2 from 5 or 20 mM D-[U-14C]glucose, and de novo lipid synthesis was determined as D-[U-14C]glucose incorporation into different lipidic fractions. Cryopreservation did not significantly modify the hormone response to glucose but it partially reversed the TNF alpha-induced inhibitory effect on insulin release in the presence of 20 mM glucose. In addition, the inhibitory effect of TNF alpha on phosphatidylcholine labeling was attenuated in cryopreserved islets compared with noncryopreserved islets. TNF alpha significantly stimulated islet nitrite production and cGMP accumulation, both effects being of a similar magnitude in cryopreserved and noncryopreserved islets. Our results suggest that cryopreservation can modify the metabolic and hormone response of human islets to TNF alpha. This effect is not mediated by changes in the TNF alpha-induced islet nitric oxide production or cGMP accumulation.
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PMID:Influence of cryopreservation on the sensitivity of human islets to tumor necrosis factor. 878 31


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