UNIPROT:P61278 - FACTA Search

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)

Cysteamine, a potent duodenal ulcerogen, stimulates gastric acid and gastrin secretion and decreases immunoreactive somatostatin (IRS) from the gut and hypothalamus of the rat. To elucidate the structural requirements for this effect, we tested a series of cysteamine analogs for their IRS decreasing activity in comparison with their nucleophilic and reducing potencies. Adult female rats were sacrificed 4 hr after p.o. administration of the test chemicals given in molar equivalents to 30 mg/100 g of cysteamine-HCl. IRS decreasing activity in gastric mucosa, expressed as percentage of controls is listed in descending order: cystamine (55%), cysteamine (59%), 2-dimethylaminethanethiol (59%), ethylamine (66%), 1,3-propanedithiol (70%), propylamine (75%) and 3-aminothiophenol (79%). The following thiols and amines had no IRS decreasing effect (80% of controls): L-cysteine, ethanethiol, 1-propanethiol, penicillamine, dimercaprol, 1-4-dithiothreitol, ethanolamine, propionitrile, n-butyronitrile, o-, m- or p-aminophenol. The aryl 2-, 3- or 4-aminothiophenols, unlike most of their aminophenol analogs also decreased immunoreactive prolactin in the pituitary by 38 to 78%. IRS decreasing activity was independent of the reducing potency of cysteamine derivatives but was correlated significantly (r = 0.793, P < .01) with electron affinity of -SH, -NH2, -OH and -CN radicals in terminal alkyl chemicals. The structural requirement for decreasing activity is the presence of either -SH and -NH2 on a 2 to 3 carbon alkyl or aryl molecule. Both radicals when present together increase potency.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Somatostatin depleting potency of cysteamine-related thiols and amines in the rat: structure-activity relation. 135 14

A single injection of cysteamine (CSH; 2-aminoethanethiol; 300 mg/kg, sc) into male rats produced a rapid decline in immunoreactive somatostatin (IR-SRIF) levels in the hypothalamus (to 20% of preinjection values within 12 h) which persisted for several days. The levels of both somatostatin-14 (SRIF-14) and somatostatin-28 (SRIF-28) were reduced. In contrast, the levels of somatostatin-28(1-12) were unaffected. Most (80-90%) of the lost SRIF molecules (both SRIF-14 and SRIF-28) could be recovered from CSH-injected rats by subjecting hypothalamic samples to denaturing, reducing, and reoxidizing conditions. These results suggest that CSH does not deplete the hypothalamus of SRIF molecules, but, instead, alters their chemical structures, rendering them undetectable using a SRIF-14-directed RIA. CSH injection also caused a rapid and complete suppression (within 1 h) of [35S]cysteine incorporation into SRIF-14 and SRIF-28. This reduction, however, was short-lived; normal incorporation rates returned within 10 h of drug administration. CSH did not influence [35S] cysteine incorporation into acid-precipitable protein or [35S]cysteine specific activity in the hypothalamus. In addition, [35S]SRIF molecules were not recovered from hypothalami of CSH-treated rats by subjecting samples to denaturing, reducing, and then reoxidizing conditions. These findings indicate that CSH injection causes a true, but short-lived (1- to 10-h), suppression of hypothalamic SRIF-14 and SRIF-28 formation. Finally, biosynthesis studies of longer duration revealed no prolonged effects of CSH. The drug produced no changes 4, 24, or 72 h postinjection in hypothalamic levels of the prepro-SRIF mRNA. Moreover, two injections of CSH, separated by 3 days, which continuously suppressed IR-SRIF levels for almost 1 week, caused only a transient suppression of [35S]SRIF-14 and [35S]SRIF-28 synthesis after each injection. These results indicate that the SRIF biosynthetic pathway is not activated by the prolonged CSH-induced depletion of IR-SRIF stores.
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PMID:Effects of cysteamine administration on somatostatin biosynthesis and levels in rat hypothalamus. 135 64

We tested the hypothesis that brain somatostatin levels modify two motor behaviors evoked by ICV infusions of nicotine. Unrestrained, awake rats were given fixed-concentration infusions of nicotine until the prostration/immobility (PI) syndrome and convulsions were produced. Infusion duration ranged from 0.9 to 1.2 min for the PI syndrome and 2.5 to 4.9 min for the convulsions. Octreotide, a stable somatostatin analog (4.5 micrograms, ICV), significantly raised the threshold for nicotine convulsions 1.0 and 5.5 h after pretreatment but not at 24 or 48 h. Cysteamine, a somatostatin releaser and depletor (0.35-0.75 mg/rat, ICV), also caused a dose-dependent increase in seizure threshold. Similarities in the response to octreotide and cysteamine suggest that depression of nicotine convulsions by cysteamine may be mediated by release of endogenous somatostatin. Neither octreotide nor cysteamine altered the threshold for the PI syndrome. These results support the view that one motor behavior evoked by nicotine is subject to control by somatostatin whereas another is not.
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PMID:Differential effects of octreotide on motor responses to nicotine in rats. 147

Single subcutaneous administration of cysteamine (2-aminoethanethiol, CSH) produces duodenal ulceration in rats within 24 h. Depletion of circulating and tissue somatostatin (SOM), hypergastrinemia and gastric acid hypersecretion have all been postulated as the pathophysiological response to CSH leading to ulceration. The purpose of this study was to analyze the synthesis, storage and secretion of gastrin and SOM as well as structural changes in SOM peptide after CSH treatment. Injection of 300 mg/kg (s.c.) of CSH caused macroscopic duodenal ulcers in seven out of eight rats at 24 h. Hypergastrinemia was seen within 30 min (from 23 +/- 4 to 74 +/- 20 pmol/l), and persisted for 4 h. Antral gastrin content was elevated at 30 min (2539 +/- 114 pmol/g) when compared to saline controls (1589 +/- 101 pmol/g). Plasma SOM did not change over the 24 h but antral SOM increased at 30 min (from 120 +/- 3 to 230 +/- 23 pmol/g) and remained elevated at 2 h (374 +/- 48 pmol/g) and 4 h (357 +/- 37 pmol/g). Fundic and duodenal SOM followed a similar pattern. Antral SOM mRNA was also elevated over the first 4 h (3-fold increase, P less than 0.05). HPLC analysis of antral tissue extracts revealed the presence of additional molecular forms of SOM which, however, differed from the major products of in vitro reduction with either CSH or dithiothreitol. Thus, the in vivo effect of CSH on SOM cannot be solely explained by a reductive opening of the disulphide bond. These results suggest that duodenal ulceration in rats treated with CSH is not related in a simple fashion to depletion of immunoreactive SOM. Early induction of hypergastrinemia may be important in the onset of ulceration. The value of CSH as a SOM depleting tool in gastrointestinal tissue must remain in doubt.
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PMID:Cysteamine can induce duodenal ulceration in rats without depletion of immunoreactive somatostatin. 168 22

To determine whether cholecystokinin secretion is regulated by endogenous somatostatin, somatostatin deficiency was induced in vivo with cysteamine (250 mg/kg body wt, IV) or anti-somatostatin antiserum in anaesthetized rats and in vitro with cysteamine (30 micrograms/mL) in a rat duodenum-incubation system. Cholecystokinin secretion was assessed in vivo by measuring amylase in duodenal perfusates collected at 10-minute intervals for 1 hour and in vitro by a carboxy-terminal radioimmunoassay. Cysteamine induced a marked decrease in duodenal immunoreactive somatostatin both in vivo (50%) and in vitro (60%). The rate of amylase secretion increased from 9.7 +/- 2.1 U (mean +/- SE) to 28.0 +/- 4.8 U at 20 minutes (P less than 0.001). The cholecystokinin-receptor antagonist CR-1392 abolished amylase response for 30 minutes, whereas the more potent antagonists Asperlicin (18.0 mg/kg body wt, IV) and L-364,718 (0.25 mg/kg body wt, IV) caused prolonged blockade. The rate of amylase secretion in gastrectomized animals increased from 7.2 +/- 2.0 U to 15.0 +/- 2.2 U 20 minutes after cysteamine administration (P less than 0.01), indicating that the effect was not due to the presence of gastrin. In vitro, cysteamine caused a nearly fourfold increase in cholecystokinin secretion compared with controls (63.1 +/- 4.9 vs. 15.2 +/- 3.7, respectively; P less than 0.001). In vivo immunoneutralization of circulating somatostatin with a high-affinity and high-capacity antiserum produced no significant change in the rate of amylase secretion. These results suggest that cholecystokinin secretion is tonically inhibited by somatostatin and that this effect is mediated by locally secreted (paracrine) but not by circulating somatostatin.
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PMID:Cysteamine induces cholecystokinin release from the duodenum. Evidence for somatostatin as an inhibitory paracrine regulator of cholecystokinin secretion in the rat. 169 33

The present experiments show that somatostatin (SS)-like immunoreactive material is present in the hippocampus and that its release can be increased by K+ stimulation of rat hippocampal slices, suggesting that SS-like peptides may be of significance to neurotransmission in the hippocampus. Exogenous SS-28 and SS-14 enhanced the K(+)-evoked release of endogenous acetylcholine (ACh) from rat hippocampal slices, whereas amino-terminal fragments of SS-28 did not. The increased ACh release in the presence of either peptide appeared to be mediated by an interaction with SS receptors because cyclo-SS, a putative SS antagonist, abolished the effects of both SS-28 and SS-14. In addition, the increase in ACh release induced by SS-14 or SS-28 was antagonized by the calcium channel antagonists omega-conotoxin GVIA, nifedipine, and cinnarizine, implicating voltage-sensitive calcium channels in this effect. Moreover, the effect was sensitive to tetrodotoxin, suggesting an indirect action of the peptides at a site distal to cholinergic nerve terminals. Cysteamine, which has been reported to deplete SS content and to increase SS release in brain, augmented the basal and evoked release of ACh from hippocampal slices, without affecting SS-like content and release. Finally, neuropeptide Y, which is colocalized with SS in many neurons of the hippocampal formation, did not alter ACh release, nor did it facilitate the SS-induced increase. The results suggest that in the rat hippocampus, both SS-28 and SS-14 interact with SS receptors to regulate ACh release indirectly by a mechanism that involves alterations of calcium influx during depolarization.
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PMID:Evidence that somatostatin enhances endogenous acetylcholine release in the rat hippocampus. 197 54

In a passive avoidance test, intracerebroventricular administration (post-trial treatment) of the somatostatin-depleting compound cysteamine decreased the avoidance latency of the rats in a dose-related manner, while the effect of pantethine (which is metabolized to cysteamine) was less pronounced. In open-field studies, both compounds decreased the motor activity (ambulation, rearing) of the animals 15 min after the injection followed by a subsequent recuperation of the locomotor depression. Following pantethine, the ambulation increased during the later tests (60 min, 240 min, 24 hr). Cysteamine decreased the noradrenaline and increased the dopamine and dihydroxyphenyl acetic acid content in the hypothalamus, whereas the effects of pantethine were less expressed. Both compounds slightly decreased the striatal noradrenaline and increased the dihydroxyphenyl acetic acid levels at 15 and 60 min after administration. However, contrary to pantethine, 4 hr after treatment with cysteamine, there was a decrease in dihydroxyphenyl acetic acid concentration in this brain region. These findings suggest that both pantethine and cysteamine attenuate passive avoidance latency after intracerebroventricular treatment. The different efficiency of pantethine and its metabolite cysteamine might be connected to the low pantetheinase activity of the brain tissue; however, some direct effects of pantethine cannot be excluded. The different effects of the two compounds on the open-field activity are possibly associated with the diverse effects of the compounds on the striatal dopaminergic neurotransmission.
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PMID:Comparative studies of intracerebroventricularly administered cysteamine and pantethine in different behavioral tests and on brain catecholamines in rats. 224 25

1. Cysteamine is formed by degradation of coenzyme A (CoA) and causes somatostatin (SS), prolactin and noradrenaline depletion in the brain and peripheral tissues. 2. Cysteamine influences several behavioral processes, like active and passive avoidance behavior, open-field activity, kindled seizures, pain perception and SS-induced barrel rotation. 3. Cysteamine has several established (cystinosis, radioprotection, acetaminophen poisoning) and theoretical (Huntington's disease, prolactin-secreting adenomas) indications in clinical practice. 4. Pantethine is a naturally occurring compound which is metabolized to cysteamine. 5. Pantethine depletes SS, prolactin and noradrenaline with lower efficacy compared to that of cysteamine. 6. Pantethine is well tolerated by patients and has been suggested to treatment of atherosclerosis. The other possible clinical indications (alcoholism, Parkinson's disease, instead of cysteamine) are discussed.
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PMID:Preclinical and clinical studies with cysteamine and pantethine related to the central nervous system. 227 50

Cysteamine (100 micrograms) markedly reduces the number (by about 60%) and intensity of staining of NADPH diaphorase-reactive neurons 6 h after local injection into the striatum. This effect was reversible (after 24 h) and was only observed when the indirect staining procedure was applied in which NADPH formed by endogenous malate dehydrogenase is used. However, no direct effect of cysteamine on the malate dehydrogenase reaction was found. The decrease in NADPH diaphorase activity parallels the previously reported cysteamine induced decrease in somatostatin contained in the same neurons and may point to a biochemical interrelation of somatostatin and NADPH diaphorase in these neurons.
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PMID:Local injection of cysteamine into the rat striatum decreases number and intensity of staining of neurons by indirect NADPH diaphorase reaction. 245 Mar 8

Insulin-like growth factor I (IGF-I, somatomedin C) was mapped by immunocytochemistry in the pancreas of normal and experimentally influenced rats. The polyclonal IGF-I antiserum K 37 was characterized and demonstrated to be specific. In the exocrine pancreas some duct cells showed IGF-I immunoreactivity, other components being negative. The three main endocrine cell types in the islets of Langerhans were IGF-I immunoreactive, most strikingly the D cells. Hypophysectomy resulted in loss of IGF-I immunoreactivity in all three endocrine cell types, i.e. D, A and B cells, while the levels of somatostatin, glucagon and insulin, respectively, remained unchanged. Starvation seemed to increase and feeding to decrease the IGF-I immunoreactivity in the B cells. Cysteamine pre-treatment reduced the normally intense IGF-I and somatostatin immunoreactivities in the D cells. In rats made diabetic with alloxan or streptozotocin, the B cells were irreversibly damaged and lost both their insulin and IGF-I immunoreactivities, while the IGF-I immunoreactivity was increased in A cells; the D cells remained unchanged. The concentrations of IGF-I mRNA in the pancreas were almost equal in normal and alloxan diabetic rats as were the concentrations of extractable IGF-I. We conclude that IGF-I immunoreactive material can be demonstrated in adult animals in all endocrine islet cells, most prominently in the D cells. The expression of IGF-I immunoreactivity is in part under pituitary control. In the adult rat only one islet cell type synthesizes IGF-I immunoreactive material, i.e. the D cells, while, in contrast, the B cells are likely to be a major IGF-I source in fetal and neonatal islets.
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PMID:Insulin-like growth factor I in the pancreas of normal and diabetic adult rats. 246 68

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