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)

Human growth hormone release is affected by a variety of pharmacological and physiological stimuli. We have studied the effect of oral clonidine, insulin hypoglycemia, and exercise on plasma hGH and GHRH levels in 31 healthy short-stature children. Thirteen underwent an oral clonidine test (0.15 mg/m2), 12 an iv. insulin test (0.1 U/kg), and 6 performed exercise (running for 10 min in a defined route). GHRH-1-44 was extracted from plasma on silica columns and determined by RIA. Although all three stimuli induced a marked increase in plasma hGH levels, only clonidine induced a significant increase in plasma GHRH levels. Maximal increment in GHRH during clonidine was 6.82 +/- 1.05 pmol/l (mean +/- SEM) as compared with 0.51 +/- 0.28 and 0.53 +/- 0.62 during hypoglycemia and exercise (p less than 0.0005 and p less than 0.005), respectively. An additional 24 subjects received TRH 0.2 mg/kg iv: 8 TRH alone, 8 TRH and insulin, and 8 TRH and clonidine. Only insulin potentiated the TRH-induced TSH response with a peak of 22.0 +/- 3.2 vs 16.0 +/- 0.8 and 15.3 +/- 1.5 mU/l (p less than 0.025) for TRH alone and TRH and clonidine, respectively. It is suggested that clonidine stimulates hGH secretion mainly through an enhancement of GHRH release, whereas stress stimuli such as hypoglycemia and exercise achieve hGH release by a different mechanism, possibly inhibition of somatostatin.
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PMID:Effect of oral clonidine, insulin-induced hypoglycemia and exercise on plasma GHRH levels in short-stature children. 210 91

Using a functioning rat thyroid cell line (FRTL-5), we examined the effects of some cytokines, particularly interleukin-1 (IL-1) on the growth of thyroid cells. In 5H medium, namely Coon's modified Ham's F-12 medium supplemented with 5% calf serum and a five-hormone preparation consisting of insulin, hydrocortisone, transferrin, glycyl-L-histidyl-L-lysine acetate and somatostatin, IL-1 enhanced the growth of FRTL-5 cells detected by [3H]TdR incorporation. However, in 6H medium (5H medium plus bovine TSH), IL-1 inhibited the growth of FRTL-5 cells. Both effects were neutralized by the addition of anti-IL-1 antibody. Furthermore, IL-1 inhibited the growth of FRTL-5 cells induced by forskolin which is known as an adenylate cyclase activator. FRTL-5 cells have specific IL-1 receptors detected by the binding of 125I-labeled IL-1 alpha. By Scatchard plot analysis, the numbers and the dissociation constants of IL-1 receptors on FRTL-5 cells were shown to be 5225/cell and 8.69 x 10(-10) M. Interleukin-2, interleukin-6 and interferon-gamma (IFN-gamma) had no significant effects on the cell growth in 6H medium, while IFN-gamma and insulin-like growth factor I stimulated cell growth somewhat in 5H medium. These results suggest that IL-1 plays a regulatory role in the growth of thyroid cells through binding to the IL-1 receptors.
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PMID:Inhibitory effect of IL-1 on the TSH dependent growth of rat thyroid cells (FRTL-5). 212 71

Whenever abnormal hormone values are found in a patient, it is necessary to inquire whether medicaments may be implicated. Some of the mechanisms of drug induced hormonal alterations are presented, and drugs which affect and alter prolactin, TSH, thyroid hormones and (in brief) GH and ACTH are summarized and discussed for the non-specialist. Hyperprolactinemia is caused by estrogens, neuroleptics and other dopaminantagonists, antidepressants, opioids, reserpine, a-methyl-dopa, H2-receptor blockers, etc. Serum TSH is decreased by glucocorticoids, somatostatin, dopaminergic agents, a-adrenergic blockers, etc., and increased by neuroleptics and other dopamin antagonists, cimetidine, clomiphene, spironolactone, etc. Thyroid hormones are altered by agents which inhibit thyroid hormone synthesis or secretion (thionamides, some sulfonamides; lithium), which increase (estrogens, methadon) or decrease (androgens, glucocorticoids) the concentration of TBG (thyroxine binding globulin), which competitively inhibit thyroid hormone binding to TBG (salicylates, phenytoin, etc.), and which inhibit the conversion of T4 to T3 (beta-adrenergic blockers, amiodarone, glucocorticoids) or stimulate degradation or fecal excretion of thyroid hormones (rifampicin, phenytoin, carbamazepine). For some drugs, in particular those with multiple effects on one or several endocrine systems, the only safe test which definitely allows drug-induced hormonal disturbances to be confirmed or ruled out is withdrawal of the drug and repetition of the hormone measurement.
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PMID:[Abnormal hormone values: do drugs play a role? Abnormal prolactin, TSH and thyroid hormone values]. 216 99

Specific receptors for somatostatin (SS), mediating the various actions of this peptide, have been described in SS target tissues in animal and man. Using homogenate binding assays, as well as receptor autoradiography, the presence of SS receptors has been demonstrated in various regions of the brain (cortex, limbic system, basal ganglia), the anterior pituitary, the endocrine and exocrine pancreas, the gastrointestinal tract, and the adrenals. There are species-, as well as age-, related variations. Furthermore, there is evidence for different SS receptor subtypes. Interestingly, a large variety of human tumors also contain SS receptors with similar characteristics as those found in normal tissue; in numerous tumors, the SS receptor density is even higher than in healthy tissue counterparts. Most GH- and TSH-producing pituitary adenomas, but also a subgroup of endocrine inactive pituitary adenomas, have SS receptors; most carcinoids and islet cell carcinomas, as well as their metastases, also contain SS receptors. Several differentiated (usually EGF receptor negative) glia tumors possess SS receptors, whereas undifferentiated (EGF receptor positive) glia tumors lack such receptors. Furthermore, a subgroup of breast tumors, usually steroid receptor positive and neuroendocrine-differentiated, contain SS receptors. Finally, small cell lung carcinomas, but not non-small cell carcinomas, often possess SS receptors. These receptors are likely to be functional since in 11 acromegalics and 18 gastroenteropancreatic tumor patients, a positive correlation was observed between their SS receptor status and their hormone secretion sensitivity to Sandostatin.
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PMID:Distribution of somatostatin receptors in normal and tumor tissue. 216 75

Somatostatin is a short-acting natural peptide secreted by specialized cells in the GI tract, the central and peripheral nervous systems, and a variety of other tissues. Its many actions include suppression of the secretion of GH, TSH, GI hormones, and inhibition of GI exocrine secretion. A long-acting analogue developed by Sandoz (Sandostatin, SMS 201-995) has been used to treat acromegaly and neuroendocrine tumors. We report our experience with it in carcinoid tumors (4 cases), glucagonomas (2), gastrinoma (1), VIPoma (1) and nonfunctioning islet cell tumor (1). It was given by continuous subcutaneous infusion, using a small portable pump, in doses ranging from 300 to 1500 mcg/day, without significant side-effects. 7 of the 9 patients had complete relief of symptoms, and tumoral hormone secretion decreased in 4 of the 5 in whom it was measurable, but there was no evidence of tumor regression. SMS 201-995 is useful for the symptomatic treatment of patients with neuroendocrine gut tumors.
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PMID:[Somatostatin analogue in the treatment of neuroendocrine gut tumors]. 217 25

Because of its widespread distribution within the nervous system and gastroenteropancreatic (GEP) system, and its diverse physiological inhibitory actions on various gastrointestinal functions, including endocrine and exocrine secretion, motility, liver and splanchnic blood flow and absorption, native somatostatin has been viewed as a possible therapy for many diseases. However, its short duration of action and consequent limited clinical usefulness have been overcome with the availability of Sandostatin (octreotide, Sandoz Ltd), a long-acting, synthetic octapeptide analog of the naturally occurring hormone. Sandostatin represents a significant advance in the treatment of growth hormone (GH) and thyrotropin (TSH)-secreting pituitary tumors and GEP endocrine tumors (carcinoid tumor, VIPoma, glucagonoma, insulinoma, and gastrinoma). Preclinical in vitro and animal studies have shown the antineoplastic activity of the compound. Moreover, because of a possible direct effect on somatostatin receptor-positive endocrine tumor cells and an indirect effect whereby Sandostatin lowers GH, insulin-like growth factor type 1 (IGF-1), and numerous gastrointestinal peptides, Sandostatin may prove useful as an adjunctive therapy in cancer patients. In vivo labeling of somatostatin receptor-positive tumors with radiolabeled somatostatin analogs now allows localization of such tumors and their metastases. In addition, targeted irradiation of these tumors by beta particle-emitting isotopes attached to such somatostatin analogs may become possible. The use of Sandostatin in acute esophageal variceal bleeding, pancreatic pseudocysts, gastrointestinal, and pancreatic external fistulae, short bowel syndrome, dumping syndrome and acquired immunodeficiency syndrome (AIDS)-related refractory hypersecretory diarrhea has provided encouraging results.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Future medical prospects for Sandostatin. 220 87

We report a case of hyperthyroidism due to inappropriate thyrotrophin (TSH) secretion in a patient with selective pituitary resistance to thyroid hormone action. Symptoms of hyperthyroidism in patients with this disorder are usually mild, implying some peripheral tissue resistance to the metabolic effects of thyroid hormone. Our patient had unusually severe symptoms, including marked weight loss and cardiac arrythmias which required carbimazole and beta-blocker therapy for control. Somatostatin was ineffective in suppressing TSH secretion. The introduction of sensitive thyrotrophin assays should facilitate the accurate diagnosis of TSH-induced hyperthyroidism and avoid inappropriate treatment.
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PMID:Clinical hyperthyroidism due to non-neoplastic inappropriate thyrotrophin secretion. 223 9

Recombinant IGF-I was administered as an iv bolus of 75 micrograms/kg to 10 patients with Laron type dwarfism (3 children aged 9, 11 and 12 years and 7 adults aged 30.6 +/- 3.5 years) and to 8 healthy subjects (mean age 19.9 +/- 12.1 years) and determinations of IGF-I, GHRH, hGH, TSH, and glucose were made before and at 2, 5, 15, 30, 60, 90, and 120 min. The following effects were observed: a. an immediate, marked and sustained drop in blood glucose (p less than 0.001), more prolonged in the patients; b. in both groups, a dramatic rise in plasma hGH (p less than 0.01) which peaked at 60-90 min; in the patients this occurred after an initial immediate fall in plasma hGH (p less than 0.01); c. a progressive decrease of plasma GHRH and TSH (p less than 0.05, 0.02) in both patients and healthy controls. An hypothesis is put forward that acute and time-limited release of somatostatin by IGF-I is the main cause of the hormonal changes registered. As the IGF-I bolus also suppressed circulating insulin levels, the hypoglycemia is considered to be a direct effect of IGF-I.
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PMID:Intravenous administration of recombinant IGF-I lowers serum GHRH and TSH. 223 85

It has long been known that endogenous pyrogen, released as a result of injection of typhoid vaccine or in response to infection, produces fever and increases ACTH secretion. Recent studies have indicated that endogenous pyrogen is, at least in part, IL-1. This monokine has now been shown to activate the release of ACTH by a hypothalamic mechanism with release of CRF and possibly vasopressin, which stimulates the corticotrophs. There may also be a pituitary action to stimulate the release of ACTH directly. In our experiments we showed that IL-1 at low but not higher doses appears to act intrahypothalamically to stimulate GH and PRL release and to inhibit TSH release. In the meantime, another monokine, cachectin, was isolated and its structure determined. We have found that this monokine can act following its third ventricular injection to stimulate ACTH, PRL, and GH release and to inhibit TSH release, at least in part, by release of prostaglandins since indomethacin, an inhibitor of prostaglandin synthesis, produced a blockade of the responses except for those of ACTH. This peptide also has highly potent effects to alter pituitary hormone release by direct action on the pituitary to stimulate ACTH, GH, and TSH and to a slight extent PRL release. These actions appear to involve prostaglandins since indomethacin blocks all of the effects except for the effect on ACTH secretion. This monokine also produces a dose-related lowering of anterior pituitary cyclic AMP levels. When the monokine was incubated along with somatostatin, the lowering of cyclic AMP was reversed, and a potent PRL-releasing effect of the monokine was visible. We have begun studies with a third monokine, gamma interferon, which indicate that it stimulates ACTH release but suppresses plasma GH and TSH levels by a hypothalamic action. It is apparent that these various monokines have powerful effects to alter hypothalamic-pituitary function and that they probably mediate most of the effects of infections on the release of anterior pituitary hormones.
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PMID:Role of monokines in control of anterior pituitary hormone release. 223 30

We sought to clarify the mechanisms of growth hormone (GH) secretion induced by insulin hypoglycemia, L-dopa, and arginine in man. The secretion of GH as measured by increased plasma level, in response to oral administration of 500 mg L-dopa or 30 min-infusion of arginine, was not modified by prior intravenous administration of 200 micrograms GH-releasing hormone (GHRH). It was, however, completely blocked by preadministered 50 micrograms SMS201-995, a long-acting somatostatin (SRIH) analog. GH release with 200 micrograms GHRH was completely blocked by 100 micrograms SMS201-995. GH secretion caused by insulin-induced hypoglycemia was significantly reduced but still present after administration of 100 micrograms of the analog. These results suggest that a suppression of SRIH release may be partially involved in the stimulatory mechanism of GH secretion by L-dopa. Coadministration of GHRH accentuated the stimulatory effect of arginine on GH secretion. Arginine significantly raised plasma TSH levels. These findings suggest that arginine suppresses SRIH release from the hypothalamus to cause GH secretion because SRIH suppresses TSH secretion. It is also suggested that some factor (or factors) other than GHRH and SRIH are involved in the mechanism by which insulin-induced hypoglycemia stimulates GH secretion, because the effect of insulin was not fully blocked in the presence of SRIH analog. Thus all the tests for GH release appear to act via different mechanisms.
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PMID:Insulin-induced hypoglycemia, L-dopa and arginine stimulate GH secretion through different mechanisms in man. 227 Mar 18


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