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)

Coeliac disease in children is frequently associated with a slow growth rate. This observation may be linked to the malabsorption that occurs in these patients; however, the underlying mechanism remains unknown. To better understand this phenomenon, we have studied the growth patterns of 153 patients with coeliac disease for 2-9 years. Gastro-intestinal biopsies were performed before and after gluten exclusion. In a second group of 79 children, somatostatin levels and binding properties in the plasma and jejunal mucosa were measured. In a third group of 40 patients we measured insulin-like growth factor I (IGF-I) and IGF-binding protein 3 (IGF-BP3) levels. We found that in children diagnosed before 2 years of age weight was the most affected growth parameter. In children diagnosed after this age, height was more affected. Suppression of gluten intake induced an acceleration of growth velocity. Although plasma levels of somatostatin were not significantly altered, somatostatin concentrations in the jejunal mucosa of patients in the active phase of the disease were significantly elevated (p < 0.05). Children with coeliac disease exhibited significantly lower levels of IGF-BP3 when compared to patients with normal stature and growth velocities. In contrast, these patients showed an increase in IGF-BP3 levels after gluten exclusion from the diet.
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PMID:Growth in malnutrition related to gastrointestinal diseases: coeliac disease. 128 43

The regulation of growth hormone (GH) secretion in humans is a complex process which comprises more than stimulation by GH-releasing hormone and suppression by somatostatin. Although these two hypothalamic hormones are the primary regulators of GH secretion, they most likely function as the final pathway through which numerous factors influence GH synthesis and secretion. Some of the modulators of GH secretion include neurotransmitters, circulating glucose, insulin-like growth factor I and gonadal steroid concentrations. Age, nutrition and body composition are also related to the amount and pattern of GH secretion in humans. The influence of nutritional status on GH secretion is becoming more clearly defined.
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PMID:Growth hormone and nutrition. 129 19

The activity of both somatostatin (SS) and GH-releasing hormone (GHRH) neurons within several hypothalamic nuclei is regulated, in part, by the feedback effects of GH. However, whether GH, or its intermediate, insulin-like growth factor I, acts on these neurons to alter the synthesis and release of SS and GHRH is unknown. We argued that if GH itself acts directly on the brain to govern its own secretion, then regions of the brain containing SS and GHRH neurons may express the GH receptor gene. We tested this hypothesis by performing in situ hybridization for GH receptor messenger RNA (mRNA) and mapping its distribution in the brain. We observed GH receptor mRNA-containing cells in various brain regions including the thalamus, septal region, hippocampus, dentate gyrus, amygdala, and hypothalamus. Next we sought evidence for expression of the GH receptor mRNA by SS neurons in the hypothalamus. We addressed this by performing a double-label in situ hybridization to identify neurons expressing both SS mRNA and GH receptor mRNA. We report that SS neurons in the periventricular nucleus and in the paraventricular nucleus coexpress the GH receptor gene, whereas few, if any, of the SS neurons in the cortex express detectable amounts of the GH receptor mRNA. These findings suggest that GH acts directly on the brain and participates in the regulation of its own secretion through a direct action on hypothalamic SS neurons.
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PMID:Growth hormone receptor messenger ribonucleic acid distribution in the adult male rat brain and its colocalization in hypothalamic somatostatin neurons. 135 44

A three-month study of the effect of growth hormone (hGH) therapy (0.1 U/kg/day sc) on plasma levels of GH releasing hormone (GHRH), somatostatin and insulin-like growth factor I (IGF-I) and on the hGH responsiveness to exogenous GHRH was carried out in 32 prepubertal short-stature children with normal GH secretion. Blood samples were collected prior to initiation of therapy, and at 5, 30 and 90 days of onset of therapy, as well as 2 and 90 days after termination of therapy. The nonconventional hGH therapy induced an increase in serum IGF-I levels which lasted as long as therapy was continued. Plasma GHRH levels showed an early transitory decrease after five days of therapy, whereas plasma somatostatin levels were unaltered. A slight suppression in hGH responsiveness to exogenous GHRH was found at 2 but not at 90 days after termination of hGH therapy. It is concluded that nonconventional hGH treatment does not cause permanent changes in physiological hGH secretion.
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PMID:Growth hormone therapy in normal short children induces a transitory decrease in plasma growth hormone releasing hormone levels and in human growth hormone responsiveness to exogenous growth hormone releasing hormone. 832 Apr 27

The effects of treatment with a bombesin receptor antagonist [D-Tpi6, Leu13 psi (CH2NH) Leu14]BN(6-14)(RC-3095) and the combination of an agonist of luteinizing hormone-releasing hormone [D-Trp6]-LH-RH and somatostatin analog D-Phe-Cys-Tyr-D-Trp-Lys-Val- Cys-Trp-NH2 (RC-160) were studied in nude mice bearing xenografts of the hormone-dependent human prostate tumor PC-82. During the 5 weeks of treatment, tumor growth was decreased in all treated groups compared with controls. Bombesin antagonist RC-3095 and the combination of [D-Trp6]-LH-RH and RC-160 caused a greater inhibition of tumor growth than [D-Trp6]-LH-RH or RC-160 alone as based on measurement of tumor volume and percentage change in tumor volume. The largest decrease in tumor weight was also seen in the groups treated with the bombesin antagonist and with the combination of RC-160 and [D-Trp6]-LH-RH. Serum prostatic-specific antigen levels were greatly decreased, and insulin-like growth factor I (IGF-I) as well as growth hormone levels were reduced in all treated groups. Specific binding sites for [D-Trp6]-LH-RH, epidermal growth factor (EGF), IGF-I, and somatostatin (SS-14) were found in the tumor membranes. Receptors for EGF were significantly down-regulated by treatment with the bombesin antagonist or RC-160. Combination of LH-RH agonists with somatostatin analog RC-160 might be considered for improvement of hormonal therapy for prostate cancer. The finding that bombesin antagonist RC-3095 inhibits the growth of PC-82 prostate cancer suggests the merit of further studies to evaluate the possible usefulness of antagonists of bombesin in the management of prostatic carcinoma.
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PMID:Inhibition of growth of PC-82 human prostate cancer line xenografts in nude mice by bombesin antagonist RC-3095 or combination of agonist [D-Trp6]-luteinizing hormone-releasing hormone and somatostatin analog RC-160. 137 10

Initial renal hypertrophy in experimental diabetes is prevented by administration of a long-acting somatostatin analogue octreotide (SMS). To investigate the long-term effects of SMS on renal hypertrophy and urinary albumin excretion (UAE), streptozotocin-diabetic and non-diabetic rats were treated with two daily subcutaneous injections of SMS (100 micrograms x 2) for six months. Untreated diabetic and non-diabetic animals were used as reference groups. No differences were seen between the two diabetic groups in respect to body weight, food intake, blood glucose levels, urinary glucose output, hemoglobin A1C(HbA1C), fructosamine, serum growth hormone (rGH) or creatinine clearance, but kidney weight (896 +/- 36 vs. 1000 +/- 24 mg, P less than 0.02), UAE (417 +/- 131 vs. 1098 +/- 187 micrograms/24 hr, P less than 0.02), kidney insulin-like growth factor I (IGF-I) (167 +/- 16 vs. 239 +/- 17 ng/g, P less than 0.01) and serum IGF-I (301 +/- 26 vs. 407 +/- 17 micrograms/liter, P less than 0.01) were all reduced in the SMS-treated diabetic animals when compared to the untreated diabetic group. In non-diabetic rats SMS reduced body weight (274 +/- 3 vs. 293 +/- 5 g, P less than 0.01), kidney weight (695 +/- 9 vs. 764 +/- 17 mg, P less than 0.01), UAE (83 +/- 29 vs. 364 +/- 114 micrograms/24 hr, P less than 0.02), kidney IGF-I (202 +/- 12 vs. 280 +/- 12 ng/g, P less than 0.01), serum IGF-I (428 +/- 21 vs. 601 +/- 54 micrograms/liter, P less than 0.01) and serum rGH (67 +/- 6 vs. 126 +/- 27 micrograms/liter, P less than 0.05) when compared to untreated controls. When kidney weights were expressed in relation to body weight no difference was found between SMS-treated and untreated controls, while the difference between SMS-treated and untreated diabetic animals was still present (P less than 0.01). In conclusion, chronic administration of SMS has abating effects on diabetic renal hypertrophy and UAE, and thus indicates that SMS may reduce development of diabetic kidney lesions in experimental diabetes. The long-term suppressive effects of SMS on renal enlargement and UAE may in part be mediated through reduction in circulating and kidney IGF-I levels.
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PMID:Octreotide administration in diabetic rats: effects on renal hypertrophy and urinary albumin excretion. 151 3

Serum GH concentrations are increased in fasted or malnourished human subjects. We investigated the dynamic mechanisms underlying this phenomenon in nine normal men by analyzing serum GH concentrations measured in blood obtained at 5-min intervals over 24 h on a control (fed) day and on the second day of a fast with a multiple-parameter deconvolution method to simultaneously resolve endogenous GH secretory and clearance rates. Two days of fasting induced a 5-fold increase in the 24-h endogenous GH production rate [78 +/- 12 vs. 371 +/- 57 micrograms/Lv (Lv, liter of distribution volume) or 0.24 +/- 0.038 vs. 1.1 +/- 0.16 mg/m2 (assuming a distribution volume of 7.9% body weight), P = 0.0001]. This enhanced GH production rate was accounted for by 2-fold increases in the number of GH secretory bursts per 24 h (14 +/- 2.3 vs. 32 +/- 2.4, P = 0.0006) and the mass of GH secreted per burst (6.3 +/- 1.2 vs. 11 +/- 1.6 micrograms/Lv, P = 0.002). The latter was a result of increased secretory-event amplitudes (maximal rates of GH release attained within a burst) with unchanged secretory burst durations. GH was secreted in complex volleys composed of multiple discrete secretory bursts. These secretory volleys were separated by shorter intervals of secretory quiescence in the fasted than fed state (respectively, 88 +/- 4.2 vs. 143 +/- 14 min, P = 0.0001). Similarly, within volleys of GH release, constituent individual secretory bursts occurred more frequently during the fast [every 33 +/- 0.64 (fasted) vs. every 44 +/- 2.0 min (fed), P = 0.0001]. The t1/2 of endogenous GH was not significantly altered by fasting [18 +/- 2.2 (fasted) vs. 20 +/- 1.5 min (fed), P = 0.47]. Serum insulin-like growth factor I concentrations were unchanged after 56 h of fasting. In conclusion, the present data suggest that starvation-induced enhancement of GH secretion is mediated by an increased frequency of GHRH release, and longer and more pronounced periods of somatostatin withdrawal.
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PMID:Augmented growth hormone (GH) secretory burst frequency and amplitude mediate enhanced GH secretion during a two-day fast in normal men. 154 37

To examine the effects of anabolic agents given during late gestation on the maternal and fetal somatotropic axes, we injected pregnant ewes twice daily with 0.15 mg somatocrinin (GRF)-(1-29) for 10 days beginning on day 130 of gestation. Maternal and fetal endocrine changes were compared with control animals using both in vivo and in vitro approaches. Treatment with GRF increased maternal plasma levels of growth hormone (GH) and insulin-like growth factor I (IGF-I;P less than 0.05) but not IGF-II. Under in vitro test conditions, maternal pituitary cells showed a greater maximal response (P less than 0.001) to GRF. In the fetuses of treated ewes, cord plasma GH levels were not significantly increased compared with controls. These animals had similar IGF-I but higher IGF-II (P less than 0.05) plasma levels. The maximal response of fetal pituitary cells to GRF was increased (P less than 0.001). GRF treatment had no influence on maternal and fetal pituitary cell responses to somatostatin under either basal or GRF-stimulated conditions. In addition, these treatments did not affect plasma levels of placental lactogen, glucose, or free fatty acids in the maternal and fetal sheep. These data are compatible with the hypothesis that treatment of pregnant ewes in the last days of gestation with GRF could support accelerated fetal growth.
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PMID:GRF treatment of late pregnant ewes alters maternal and fetal somatotropic axis activity. 167 20

Hormonal feedback regulation of hypothalamic peptides putatively involved in growth hormone (GH) regulation has been studied by measurement of steady-state mRNA levels in male hypophysectomized rats with or without thyroid hormone, corticosterone, testosterone or GH replacement. Hypothalamic GH-releasing factor (GRF) mRNA levels increased progressively following hypophysectomy to 420% of sham levels after 15 days while hypothalamic insulin-like growth factor I (IGF-I) and insulin-like growth factor II (IGF-II) mRNA levels decreased to less than 40% of sham levels. Whole hypothalamic somatostatin mRNA levels were not significantly different from sham. One week of continuous GH infusion restored hypothalamic IGF-I mRNA to levels (95%) indistinguishable from those in sham-operated controls but had no effect on either IGF-II or GRF mRNA. Thyroid hormone, corticosterone and testosterone treatment without GH had no effect on the hypophysectomy-induced reduction of either IGF-I or IGF-II mRNA levels but reversed the elevation of GRF mRNA. We conclude that hypothalamic IGF-I may be involved in GH feedback regulation and thus may function as a hypothalamic modulator of GH. In contrast, IGF-II may be regulated by one of the pituitary trophic hormones but not by GH or the target hormones tested. Finally, hypothalamic GRF mRNA regulation appears to be complex and may include target hormone feedback.
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PMID:Hormonal regulation of rat hypothalamic neuropeptide mRNAs: effect of hypophysectomy and hormone replacement on growth-hormone-releasing factor, somatostatin and the insulin-like growth factors. 167 82

The in vivo and in vitro dynamics of somatotroph responsiveness to rGRF (1-29) NH2 (rat growth hormone releasing factor) were evaluated in 2-, 4-, 8-, 12-, and 20-month-old male rats. In vivo, using pentobarbital-anesthetized animals, we observed that the rGH (rat growth hormone) responsiveness to 0.4 and 1.6 micrograms/kg rGRF started to decline at the higher dose in 12-month-old rats and was completely blunted at both rGRF doses in 20-month-old animals. In vitro, using freshly dispersed perifused pituitary cells, we also documented a decrease of rGRF-induced rGH secretion in 12- and 20-month-old rats. Moreover, as the animals aged, the rGRF-induced rGH secretion was differentially affected by the inhibiting action of somatostatin (p less than 0.001), suggesting a loss of pituitary sensitivity to somatostatin in the presence of a high concentration of rGRF. The pituitary rGH content increased until rats reached 12 months of age, but was diminished in 20-month-old rats. In contrast, the pituitary somatostatin content increased twofold in 20-month-old rats as compared with younger rats. The hypothalamic somatostatin content was highest in 8-month-old rats and only slightly diminished in 20-month-old animals. Finally, plasma insulin-like growth factor I concentrations were highest in 8-month-old rats and lowest in 20-month-old animals. Altogether, these results indicate that the physiological loss of somatotroph responsiveness associated with the process of aging starts around 12 months of age.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dynamics of growth hormone responsiveness to growth hormone releasing factor in aging rats: peripheral and central influences. 167 94


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