Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0432222 (SEM)
 47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Accumulating evidence has emerged indicating that growth hormone-releasing factor (GRF) is present not only in the hypothalamus but in other tissues as well. Using highly specific and sensitive radioimmunoassays and immunoaffinity chromatography, we found low but clearly measurable GRF-like immunoreactivity (GRF-LI) levels in rat peripheral plasma. In order to verify the immunological findings, the peripheral plasma GRF-LI was characterized using fast protein liquid chromatography. The immunological peak was eluted at the position of synthetic rat GRF standard. These findings demonstrate that rat peripheral plasma GRF is immunologically and chromatographically indistinguishable from authentic rat GRF. Moreover, we performed studies with hypophysectomy to assess whether peripheral plasma GRF-LI changes in physiological status. At 4 weeks after hypophysectomy, there was a significant (p less than 0.05) increment in the rat plasma GRF-LI [12.4 +/- 0.5 (+/- SEM) pg/ml in hypophysectomized rats as opposed to 5.8 +/- 0.4 pg/ml in sham-operated control rars]. On the other hand, hypothalamic GRF-LI fell significantly as compared that of controls (36.1 +/- 1.0 vs. 78.3 +/- 3.0 pg/mg wet weight tissue). A similar pattern of changes in GRF-LI at 10 weeks after hypophysectomy was also revealed. The source of rat peripheral plasma GRF has not yet been elucidated. Our results, however, may suggest that GRF levels are modulated by negative feedback at the level of the hypothalamus by a pituitary factor, presumably growth hormone (GH) and that hypothalamic GRF release exceeds its synthesis in hypophysectomized rats.
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PMID:[Changes of growth hormone-releasing factor (GRF) in rat peripheral blood--effect of hypophysectomy]. 313 39

Increased plasma concentrations of growth hormone (GH) are reported in diabetes and it is suggested that this may be important in the development of complications. We have investigated fasting GH levels and the response to 100 micrograms i.v. growth hormone releasing factor, GRF(1-29)NH2, in age-matched men: six normal weight controls, six obese controls, six insulin-dependent diabetics, six normal weight non-insulin dependent diabetics and six obese non-insulin dependent diabetics. None of the diabetic men had clinical evidence of diabetic complications. Fasting GH values did not differ significantly between the five groups. The peak GH response to GRF was similar in the controls, insulin-dependent diabetics (IDD) and non-insulin dependent (NIDD) normal weight diabetics (mean peak +/- SEM: controls 25.5 +/- 5 mU/l, IDD 26.5 +/- 6 mU/l, NIDD 19.7 +/- 5 mU/l) but was significantly reduced in the two obese groups (obese 6.4 +/- 3 mU/l, obese diabetics 4.5 +/- 1 mU/l, P less than 0.01). This impairment of GH secretion was unrelated to either fasting plasma insulin or glucose concentration. We conclude that our results do not confirm the previous reports of abnormal GH secretion in diabetes but do demonstrate a markedly impaired GH response to GRF to be a feature of obesity.
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PMID:Growth hormone response to growth hormone releasing factor in diabetic men. 313 33

In order to investigate the mechanisms by which arginine and L-dopa cause GH release in humans we measured the GH response to GHRH 1-44 (200 micrograms i.v.), arginine (30 g i.v. over 30 min) and L-dopa (500 mg orally) administered alone and 120 minutes following pretreatment with GHRH 1-44 (200 micrograms i.v.) in normal male subjects. Prior GHRH administration abolished the GH response to subsequent GHRH. Arginine infusion induced a rise in GH levels maximal at 45 min. Following GHRH pretreatment the GH response to arginine was enhanced, with peak values of 19.3 +/- 6.4 vs 53.3 +/- 16.5 mU/l (mean +/- SEM) respectively (P less than 0.02). L-dopa alone induced a rise in GH levels maximal at 90 min (17.6 +/- 7.4 mU/l, mean +/- SEM) but this rise was abolished by pretreatment with GHRH.
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PMID:Growth hormone (GH) responses to arginine and L-dopa alone and after GHRH pretreatment. 314 20

Plasma GH responses to iv administered synthetic human GH-releasing factor-(1-44)-NH2 (hGRF) and the concentration of endogenous hGRF-like immunoreactivity (hGRF-LI) in the cerebrospinal fluid (CSF) were examined in 16 children with GH deficiency (GHD). Ten patients had idiopathic GHD, and six had GHD secondary to germinoma. An iv bolus hGRF (1 microgram/kg BW) injection test was performed the day before and the day after treatment, with a daily 1-h iv infusion of hGRF (2 micrograms/kg BW) for 3 days. Plasma GH increases (greater than 5 ng/ml) after the first iv bolus injection of hGRF occurred in 2 of the 10 idiopathic GHD children and in 4 of the 6 GHD patients with germinoma whereas the first bolus hGRF injection failed to elicit GH release in the remaining 10 patients. The mean +/- SEM peak plasma GH level after the first bolus hGRF dose in the patients with germinoma (8.2 +/- 2.2 ng/ml) was significantly higher than that in the idiopathic GHD patients (2.9 +/- 0.9 ng/ml; P less than 0.05), but significantly lower than that in normal children with short stature (18.5 +/- 2.5 ng/ml; P less than 0.05). In the 2 patients with germinoma and in 5 of the 8 idiopathic GHD children who did not respond to the first hGRF bolus dose, a significant plasma GH response to hGRF occurred during a daily iv infusion of hGRF for 3 consecutive days, whereas the remaining 3 idiopathic GHD children failed to respond to the daily hGRF infusions. The plasma GH response after the second hGRF bolus dose given after treatment with daily hGRF infusions for 3 days was not different from that after the first hGRF bolus in patients with germinoma or that in the idiopathic GHD children. hGRF-LI was not detected (less than 5.8 pg/ml) in the CSF in any of 5 patients with germinoma, whereas it was present in 5 idiopathic GHD patients (mean, 17.5 +/- 0.9 pg/ml), 3 of whom were nonresponders to daily hGRF infusions. From these results, GHD secondary to destruction of hypothalamic GRF neurons might be defined by the following findings: 1) lack of a GH response to the standard provocative tests acting through the hypothalamus; 2) significant increase in plasma GH after a single bolus and/or repetitive iv administration of hGRF; and 3) undetectable or extremely low levels of endogenous hGRF-LI in the CSF. Most of the idiopathic GHD patients responded to the repetitive hGRF infusion, suggesting insufficient secretion of hypothalamic hGRF as the primary defect. However, since hGRF-LI was detectable in the CSF in some of the idiopathic GHD patients, its pathogenesis must be multifactorial.
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PMID:Idiopathic growth hormone (GH) deficiency, and GH deficiency secondary to hypothalamic germinoma: effect of single and repeated administration of human GH-releasing factor (hGRF) on plasma GH level and endogenous hGRF-like immunoreactivity level in cerebrospinal fluid. 391 56

Preincubation of rat pituitary cells in primary culture with rat GH-releasing factor (rGRF) resulted in substantial desensitization to subsequent GRF stimulation. rGRF-directed GH release and intracellular cAMP accumulation decreased in the desensitized cells. Whereas prior treatment of rat pituitary cells caused partial depletion of intracellular GH levels, diminished cellular reserves could not entirely account for the decreased GH release. Cells that had been preexposed to 10 nM rGRF for 4 h demonstrated at 30-50% depletion of intracellular GH; subsequent stimulation of those cells with 10 nM rGRF elicited GH release which was only 5% of that seen in cells that were not desensitized [control, 112 +/- 3.2 ng/well (+/- SEM); GRF-stimulated, 435 +/- 32 ng/well; GRF-pretreated, control, 63 +/- 3 ng/well, GRF-pretreated, GRF-stimulated, 73 +/- 3.4 ng/well]. Despite the marked depletion of cellular GH stores and the greatly diminished rGRF-stimulated GH release in cells that had been preexposed to rGRF, both forskolin and (Bu)2cAMP were able to induce a 2-fold stimulation of GH release. Incubation of the rGRF-pretreated cells with fresh medium which lacked rGRF resulted in gradual recovery of the ability of rGRF to stimulate GH release without complete reconstitution of the intracellular GH stores. These results indicate that exposure of rat pituitary cells to rGRF results in 1) partial depletion of intracellular GH stores; 2) a diminished ability of a subsequent rGRF challenge to elicit GH secretion and intracellular cAMP accumulation, and 3) a sustained ability of forskolin and (Bu)2cAMP to stimulate GH release, indicating that rGRF desensitization occurs in vitro.
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PMID:Growth hormone-releasing factor desensitization in rat anterior pituitary cells in vitro. 391 50

GH-releasing factor (GHRH) was measured by RIA in the plasma of 22 constitutionally short children given an ornithine infusion or an oral dose of L-dopa. After an overnight fast and 1 h of rest, plasma GHRH levels were 49.7 +/- 7.3 pg/ml (+/- SEM). In 5 children, L-dopa induced an increase in mean GH levels from 1.8 to 12 ng/ml at 60 min. Mean plasma GHRH levels increased from 47 pg/ml to a peak of 96 pg/ml at 15 min (P less than 0.02). In 4 other children, no increase in either GH or GHRH occurred after L-dopa treatment. In these 9 children, a significant correlation was found between the peak GH and GHRH concentrations (r = 0.841; P less than 0.001). On the contrary, ornithine-induced GH release was not preceded by a GHRH rise, but was followed by a GHRH decrease, from 51 to 27 pg/ml (P less than 0.02). We conclude that the 2 tests stimulate GH release in different ways, and that GH levels may be involved in the feedback control of GHRH secretion.
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PMID:Variations of plasma growth hormone (GH)-releasing factor levels during GH stimulation tests in children. 392 20

The response of growth hormone (GH) to synthetic human growth hormone releasing factor (hGRF) administered intravenously was examined in 32 neonates aged 3-28 days. GH peaked at 30 min after hGRF administration and the mean +/- SEM level of GH at maximal response was 66.4 +/- 6.2 ng/ml. In the comparison between the neonates less than 7 days old and those more than 8 days old, between the neonates less than 37 weeks and those more than 38 weeks in gestational age, between the neonates under 2,500 g and those over 2,501 g in birth body weight, and between males and females, no significant statistical differences were observed.
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PMID:Growth hormone responses to growth hormone releasing factor in neonates. 392 93

In addition to stimulating GH release in normal subjects, GH-releasing hormone-40 (GHRH-40) stimulates GH secretion in some adults and children with GH deficiency. Recognizing that GHRH-40 may have potential as a therapeutic agent for the treatment of GH deficiency, we examined the effects of iv, sc, and intranasal (in) GHRH-40 administration on GH secretion and measured the plasma levels of immunoreactive GHRH achieved after the administration of the peptide via these different routes. Normal men were given vehicle or GHRH-40 iv (0.003, 0.01, 0.03, and 0.1 micrograms/kg; n = 10), sc (1, 3.3, and 10 micrograms/kg; n = 8), or in (3, 10, 30, and 100 micrograms/kg; n = 5). No subject had any symptoms after administration of vehicle or GHRH-40. During the 2-h period after iv administration of GHRH-40, the maximal increment in serum GH levels above basal (nanograms per ml; mean +/- SD) after the 0.1 micrograms/kg dose was 15.5 +/- 10.4 compared to 2.4 +/- 4.1 after vehicle (P = 0.0017). During the 3-h period after sc administration, when compared to the maximal increment in serum GH above basal after vehicle alone (10.2 +/- 12.9), the maximal increments above basal in serum GH were increased after both the 3.3 micrograms/kg (26.2 +/- 23.1; P = 0.022) and 10 micrograms/kg (63.6 +/- 53.5; P = 0.0003) doses. During the 3-h period after in administration, when compared to the maximal increment in serum GH above basal after vehicle alone (2.8 +/- 6.4), the maximal increments above basal in GH were higher after both the 30 micrograms/kg (18.5 +/- 10.4; P = 0.0053) and 100 micrograms/kg (21.7 +/- 8.1; P = 0.0028) doses. In addition, significant dose-response relationships were documented between the maximal increments above basal in serum GH and GHRH-40 administered by all routes. The mean (+/- SEM) peak plasma level of IR-GHRH (nanograms per ml) achieved after administration of 10 micrograms/kg GHRH-40, iv, as reported previously (66.6 +/- 17.6), was approximately 60- and 500-fold higher than the mean levels in the current study after administration of the same dose sc (1.11 +/- 0.39) or in (0.14 +/- 0.02), respectively. In summary, although GHRH-40 stimulates GH release when administered iv, sc, or in, significantly higher doses were required using the sc and in routes to achieve responses comparable to those obtained with iv administration.
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PMID:Effects of intravenous, subcutaneous, and intranasal administration of growth hormone (GH)-releasing hormone-40 on serum GH concentrations in normal men. 393 May 51

The effects of somatostatin (SRIF) and human pancreatic tumor GRF on GH release by cultured pituitary tumor cells obtained during transsphenoidal operation from 15 acromegalic patients were investigated. In a study of the sensitivity of pathological GH release to SRIF, 1-10 nM SRIF induced maximal inhibition of hormone release in 3 consecutive tumors. In 12 of 15 tumor cell cultures, 10 nM SRIF produced statistically significant inhibition of basal GH release by 39 +/- 3% (mean +/- SEM). In 2 of the 3 other tumors, SRIF inhibited GRF-stimulated GH release, while this was not investigated in the third tumor. A dose-response study of the effect of GRF on GH release by cultured pituitary tumor cells showed that doses of 0.1, 1, 10, and 100 nM induced similar maximal (35%) stimulation of hormone secretion. In four of five consecutive tumor cell suspensions, 1 and 10 nM GRF induced statistically significant GH stimulation by 18-300%. Preincubation of the tumor cells with 5 nM dexamethasone greatly increased the sensitivity and the maximal stimulation in response to GRF and made one tumor cell suspension, which did not react to GRF initially, sensitive to GRF. In the tumors of four patients, the interrelationship between the effects of SRIF and GRF on GH release were also studied. SRIF (10 nM) inhibited the stimulatory effects of GRF on GH release virtually completely. In conclusion, GH release by in vitro cell cultures of GH-secreting pituitary adenomas was inhibited by SRIF and stimulated by GRF. The interaction of GRF and SRIF on GH release by these pituitary tumor cells was similar to that in normal rat GH cells, as SRIF virtually completely overcame the GRF-induced GH release.
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PMID:The interrelationship between the effects of somatostatin and human pancreatic growth hormone-releasing factor on growth hormone release by cultured pituitary tumor cells from patients with acromegaly. 614 Nov 75

Human pancreatic growth hormone releasing factor 1-44 (hpGRF), 100 micrograms was administered as an i.v. bolus injection to eleven patients with acromegaly. The mean serum growth hormone (GH) levels rose (P less than 0.001) from 54 +/- 20 ng/ml to 215 +/- 126 ng/ml (+/- SEM) 20 min after the injection. Although the maximum response of GH levels was highly variable it correlated positively with the individual GH levels (P less than 0.01, Rs = +0.80). Thus the higher the GH levels, the greater the responsiveness to hpGRF. Administration of somatostatin (SRIF), 300 micrograms/h, lowered basal GH levels from 76 +/- 38 ng/ml to 13 +/- 5 ng/ml (P less than 0.01) after 1 h. hpGRF administration during concomitant SRIF infusion also led to highly variable growth hormone responses. The maximum GH responses again correlated positively with the GH level before hpGRF after 1 h of SRIF administration (P less than 0.05, Rs = +0.79). GH responses to hpGRF were completely blocked by SRIF in three out of four patients whose GH levels decreased to normal levels during SRIF infusion. Our data illustrate that the pituitary in acromegaly is normally responsive to both SRIF and hpGRF but at a higher setting of basal GH levels.
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PMID:Growth hormone responsiveness to human pancreatic growth hormone releasing factor in acromegaly: modulatory effects of basal hormone levels and of concomitant somatostatin administration. 615 Jul 72


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