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)

Growth hormone inhibits its own secretion in animals and man but the mechanism for this inhibition is unclear: both stimulation of somatostatin release and inhibition of GH-releasing factor (GRF) release have been implicated. We have now studied the GRF responsiveness of conscious male and female rats under conditions of GH feedback induced by constant infusion of exogenous human GH (hGH). Intravenous infusions of hGH (60 micrograms/h) were maintained for 3 to 6 h whilst serial injections of GRF(1-29)NH2 (0.2-1 microgram) were given at 45-min intervals. The GH responses were studied by assaying blood samples withdrawn at frequent intervals using an automatic blood sampling system. We have confirmed that male and female rats differ in their ability to respond to a series of GRF injections; female rats produced consistent GH responses for up to 13 consecutive GRF injections, whereas male rats showed a 3-hourly pattern of intermittent responsiveness. In female rats, multiple injections of GRF continued to elicit uniform GH responses during hGH infusions, whereas hGH infusions in male rats disturbed their intermittent pattern of responsiveness to GRF, and their regular 3-hourly cycle of refractoriness was prolonged. We suggest that this sex difference in GH feedback may be due to GH altering the pattern of endogenous somatostatin release differentially in male and female rats. Such a mechanism of GH autofeedback could be involved in the physiological control of the sexually differentiated pattern of GH secretion in the rat.
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PMID:Sex difference in growth hormone feedback in the rat. 211 94

We have studied the effect of somatostatin analogue (SMS 201-995) given as a subcutaneous injection on the growth and growth hormone secretion in seven tall children (two male; five female). SMS 201-995 was given in doses of 37.5 or 50 micrograms on a once or twice-daily regimen. Growth velocity decreased from a pretreatment median of 8.3 cm/year (range 5.5-12.2) to 3.0 cm/year (range 0.2-4.5) after 6 months treatment (Wilcoxon, P = 0.02). In three of the children therapy was discontinued for the next 6 months with restoration of growth rate to pretreatment values in two of the three. Growth hormone secretion decreased as a result of SMS 201-995 therapy although one child needed a twice-daily regimen to achieve long-term suppression. Final height measurements were reduced in four of five patients with an overall reduction between 1.1 and 6.3 cm and no change in the other. No effects of treatment on fasting glucose and insulin, glycosylated haemoglobin or serum thyroxine concentrations were observed. These preliminary studies suggest that SMS 201-995 may have a role in the management of the growth of tall children but the optimum mode of administration remains to be established.
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PMID:A preliminary report on the role of somatostatin analogue (SMS 201-995) in the management of children with tall stature. 218 61

Growth hormone is assumed to be involved in the development of diabetic retinopathy. In a randomized study we evaluated the possible effects of one year treatment with a somatostatin (SRIH) analogue, octreotide, on early retinopathy and on metabolism in Type I (insulin-dependent) diabetes mellitus. Eleven patients were allocated to treatment with a continuous sc infusion of 400 micrograms octreotide per day and 9 served as controls. Only 7 patients from each group completed the study. Three octreotide-treated patients left the study owing to severe diarrhea. The subjects were evaluated at entry, after 2, 6 and 12 months treatment, and 2 months after withdrawal. Octreotide induced a decrease in GH secretion, expressed as the area under the 24 h serum GH profiles (p less than 0.05), and of the serum levels of IGF-I (p less than 0.05). The entire decline in GH levels occurred during the daytime, whereas the nocturnal levels were unaffected. Retinopathy, as assessed by determination of the blood retina barrier permeability, by colour fundus photography, and flurescein angiography was unchanged in both groups. Apart from a decline in insulin requirements, octreotide had no major effect on glycemic control, but induced a mild transient pituitary hypothyroidism, not clinically relevant. We conclude that treatment with octreotide for one year has modest effects on GH, IGF-I, and glucose metabolism, but has no significant effect on early retinopathy in Type I (insulin-dependent) diabetes.
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PMID:Effect of one year continuous subcutaneous infusion of a somatostatin analogue, octreotide, on early retinopathy, metabolic control and thyroid function in Type I (insulin-dependent) diabetes mellitus. 219 45

Growth hormone (GH) secretion in patients with Cushing's syndrome is diminished to all the stimuli tested so far but the precise mechanisms through which this occurs are unknown. In order to investigate whether increased somatostatinergic tone might be responsible for this alteration, we studied the effect of pyridostigmine (120 mg p.o. at -60 min), which activates cholinergic synapses and thus suppresses hypothalamic somatostatin release on GH responses to GHRH (100 micrograms, i.v. at 0 min), in six patients with Cushing's syndrome. We found that while pyridostigmine markedly potentiated GH responses to GHRH, in all the normal subjects tested (n = 12), neither GHRH alone nor GHRH plus pyridostigmine elicited any increase in GH secretion in any of the patients with Cushing's syndrome. This suggests that chronic glucocorticoid excess induces marked alterations in the hypothalamic control of GH secretion.
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PMID:Effect of enhancement of endogenous cholinergic tone with pyridostigmine on growth hormone (GH) responses to GH-releasing hormone in patients with Cushing's syndrome. 222 84

Growth hormone (GH) is secreted in a pulsatile way during the whole life under the reciprocal influence of somatostatin and GH-releasing hormone (GHRH). It mediates many effects by stimulating production of insulin like growth factor I (IGF I) in liver and other tissues, but IGF I is also regulated by the nutritional state. Women secrete more GH than men, and older men and women less than young women. This suggests importance of estradiol in regulating secretion. Sex hormone effects are also demonstrated by the increment of GH and IGF I at puberty, which is an amplitude-modulated phenomenon. Classic metabolic studies have shown that patients with GH-deficiency retain more nitrogen in response to a given dose of exogenous hGH than normal subjects. The use of the stable isotope 15N has simplified such studies. In GH-deficient patients, there was with this technique a marked positive hGH-induced balance change. In girls with Turner syndrome (as example of subjects with normal GH-secretion), balance change was less marked with the same dose. Girls with Turner syndrome, who were given a double hGH-dose showed a response in the same range as that in the GH-deficient patients with the lower dose. A conclusion from this is that patients with normal GH-secretion need higher doses to obtain a similar response, than patients with GH-deficiency. The dosage in such patients will have to be selected individually, and needs to be about twice or three times as high as in GH-deficient patients.
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PMID:Assessment of growth hormone secretion in children. 225 28

This study examines the effects of somatocrinin (GRF) and somatostatin antiserum (ASS), jointly and separately on gastric and duodenal growth. 24-day-old rats received twice daily SC injections of saline or GRF (4 and 20 micrograms X kg-1) for 14 days. ASS was given IP every 2 days. Alone, GRF increased gastric fundus weight concomitantly with DNA, RNA and protein contents producing hyperplasia and hypertrophy within this gland. Alone, ASS increased RNA and protein cellular concentrations. Joint ASS and GRF treatment stabilized the weight and protein content of the fundus, while reducing RNA contents as well as RNA and protein concentrations. GRF alone caused significant increments in duodenal weight and protein content suggesting cellular hypertrophy. Growth hormone, gastrin, cholecystokinin and secretin may be considered as putative mediators of these trophic effects.
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PMID:Effect of somatocrinin and a somatostatin antiserum on duodenal and gastric growth in the rat. 243 13

Growth hormone releasing factor (GRF), a 44-residue peptide originally isolated from human pancreatic tumors, shows structural similarities to the members of the secretin-vasoactive intestinal peptide (VIP) peptides. This study was designed to determine the effects of human GRF (hGRF-(1-44] on pancreatic secretion in vivo in conscious dogs and in vitro in dispersed rat pancreatic acini. GRF given i.v. in graded doses in dogs caused a small but significant stimulation of pancreatic HCO3- and protein outputs and potentiated secretin- and cholecystokinin (CCK)-induced pancreatic HCO3- but not protein secretion. When given together with somatostatin, GRF failed to reverse the inhibitory action of this peptide on HCO3- and protein responses to secretin plus CCK in dogs. Studies in vitro dispersed rat pancreatic acini showed that GRF added to the incubation medium of these acini caused an increase in basal amylase release and shifted to the left the amylase dose-response curve to caerulein and urecholine but failed to affect the amylase response to VIP. This study indicates that GRF in vivo stimulates basal and augments secretin- or CCK-induced pancreatic HCO3- secretion and that this is probably due to direct stimulatory action of the peptide on pancreatic secretory cells.
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PMID:Effects of growth hormone releasing factor on pancreatic secretion in vivo and in vitro. 246 9

Growth hormone (GH) release is influenced mainly by two hypothalamic factors, growth hormone-releasing factor (GRF) and somatostatin and is modulated by other hormones such as gonadal steroids. The objective of this study was to determine if castration (CA) and exogenous testosterone (TE) affect endogenous and GRF-induced GH release. Purebred Yorkshire male pigs (n = 32) were assigned to one of the following treatments: T1:CA; T2:CA +/- TE; T3: intact (IN); T4: IN +/- TE, in a 2 x 2 factorial design. Piglets were castrated at 3 days of age. Testosterone propionate (1.0 mg/kg) in sesame oil (2 ml) or sesame oil alone was injected sc SID during a 10-day period before each sampling day at 9, 15 and 21 weeks of age. Jugular blood samples were collected for a 6-hr period preceding and following iv injection of hGRF (1-29)NH2 (10 micrograms/kg). These procedures were repeated at 9, 15 and 21 weeks of age. The overall mean GH levels and the area under the GH peaks before and after GRF stimulation were lower (P less than .05) in castrated animals than in intact animals. Testosterone treatment increased (P less than .05) circulating TE levels and increased the amplitude of the endogenous GH peaks but did not affect (P greater than .05) the GRF-induced GH release. Increasing age produced a marked reduction of the amplitude of the GH peaks, the area under the GH peaks, the baseline mean and the overall mean GH levels during the 6-hr period preceding GRF injection. The present data support the hypothesis that castration in pigs reduces circulating and GRF-induced GH release. Exogenous testosterone for 10 days did not stimulate endogenous or GRF-induced GH release with the exception of the amplitude of the endogenous GH peaks.
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PMID:Castration and testosterone effects on endogenous and somatocrinin-induced growth hormone release in intact and castrated male pigs. 249 17

Growth hormone (GH) secretion is mediated by hypothalamic factors, mainly growth hormone releasing factor (GRF) and somatostatin (SS). The hypothalamic hormones, under direct neurotransmitter control, stimulate GH secretion through different central mechanisms. Atropine, an anticholinergic agent, can cross the blood-brain barrier and inhibit GH secretion stimulated by exercise and sleep in normal persons. In order to study the inhibiting effect of atropine on GH release and whether glucose can be replaced by atropine, normal persons and acromegaly patients were observed during exercise, after atropine, and 100 g glucose loading. The results confirmed that GH secretion increases after exercise and that this GH elevation can be inhibited by atropine in normal subjects. But in acromegaly patients high basal GH levels can not be inhibited by 100 g glucose loading or 0.6 mg atropine during the active phase of the disease. Blood sugar levels remained unchanged during the atropine test. It is suggested that the atropine test can be used as a GH inhibitory test in acromegaly patients with overt diabetes.
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PMID:Inhibitory effects of atropine on growth hormone release in normal subjects and acromegaly. 250 52

Growth hormone secretion was stimulated in vitro by products of arachidonic acid epoxygenase, the epoxyeicosatrienoic acids. 5,6-Epoxyeicosatrienoic and 14,15-epoxyeicosatrienoic acid stimulated growth hormone release from an enriched population of somatotrophs (approximately 85%) by twofold. Inhibition of arachidonic acid metabolism by indomethacin did not affect growth hormone-releasing hormone stimulation of growth hormone release. In contrast, pretreatment of somatotrophs with an 11,12-isonitrile analogue of arachidonic acid that inhibits arachidonic acid epoxygenase, resulted in a 20-25% inhibition of growth hormone-releasing hormone-stimulated growth hormone release. 14,15-Epoxyeicosatrienoic acid stimulated a concentration-dependent increase (twofold) in the cytoplasmic concentration of adenosine 3',5'-cyclic monophosphate (cAMP) in the somatotrophs. 14,15-Epoxyeicosatrienoic acid also rapidly increased the intracellular free calcium concentration in somatotrophs from resting levels (approximately 80 nM) to greater than 250 nM. Growth hormone-releasing hormone increased the free intracellular calcium to 160-180 nM. Preincubation of somatotrophs with somatostatin inhibited growth hormone-releasing hormone-stimulated growth hormone secretion, cAMP accumulation, and 14,15-epoxyeicosatrienoic acid stimulated cAMP accumulation. These data are suggestive that the epoxyeicosatrienoic acids may have a role in the secretion of growth hormone.
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PMID:Effect of epoxyeicosatrienoic acids on growth hormone release from somatotrophs. 256 27


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