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:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The results of testing growth hormone (GH) reserve using human pancreatic growth hormone-releasing factor 1-44 amide (hp GRF 1-44 amide) have been compared with the GH responses in a variety of other dynamic tests in seven acromegalic patients. The GH release following hp GRF 1-44 amide correlated with the GH suppression following bromocriptine, but showed an inverse correlation with the GH release following stress tests (insulin-induced hypoglycaemia/glucagon). There was no correlation between the GH responses in these three tests and any of the other tests: TRH, GnRH and glucose. A hypothesis is proposed to explain these findings on the basis of varying degrees of GH secretion from adenomatous and normal pituitary somatotrophs in acromegaly.
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PMID:Growth hormone responses to hp GRF 1-44 amide, bromocriptine and stress in acromegaly are correlated. 312 Jan 67

Recent data on the immunolocalization of regulatory peptides and related propeptide sequences in endocrine cells and tumors of the gastrointestinal tract, pancreas, lung, thyroid, pituitary (ACTH and opioids), adrenals and paraganglia have been revised and discussed. Gastrin, xenopsin, cholecystokinin (CCK), somatostatin, motilin, secretin, GIP (gastric inhibitory polypeptide), neurotensin, glicentin/glucagon-37 and PYY (peptide tyrosine tyrosine) are the main products of gastrointestinal endocrine cells; glucagon, CRF (corticotropin releasing factor), somatostatin, PP (pancreatic polypeptide) and GRF (growth hormone releasing factor), in addition to insulin, are produced in pancreatic islet cells; bombesin-related peptides are the main markers of pulmonary endocrine cells; calcitonin and CGRP (calcitonin gene-related peptide) occur in thyroid and extrathyroid C cells; ACTH and endorphins in anterior and intermediate lobe pituitary cells, alpha-MSH and CLIP (corticotropin-like intermediate lobe peptide) in intermediate lobe cells; met- and leu-enkephalins and related peptides in adrenal medullary and paraganglionic cells as well as in some gut (enterochromaffin) cells; NPY (neuropeptide Y) in adrenaline-type adrenal medullary cells, etc.. Both tissue-appropriate and tissue-inappropriate regulatory peptides are produced by endocrine tumours, with inappropriate peptides mostly produced by malignant tumours.
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PMID:Endocrine cells producing regulatory peptides. 329 70

Vasoactive intestinal peptide (VIP)-immunoreactive nerve fibers have been demonstrated in the rat adrenal cortex in close association with zona glomerulosa cells, suggesting neural regulation of adrenocortical cell function (5). The present studies were undertaken to study the possible role of VIP in the regulation of steroid hormone secretion from the outer zones of the normal rat adrenal cortex. Capsule-glomerulosa preparations, consisting of the capsule, zona glomerulosa, and a small but variable portion of the zona fasciculata, were perifused in vitro. To assess the secretory responsiveness of the capsule-glomerulosa preparation, aldosterone and corticosterone release were measured after stimulation with ACTH and angiotensin II. ACTH (10(-12)-10(-8) M) stimulated dose-dependent increases in aldosterone secretion (1.9- to 36.9-fold increases over basal values) and corticosterone secretion (1.4- to 14.0-fold increases over basal values). Angiotensin II (10(-8)-10(-5) M) stimulated dose-dependent increases in aldosterone secretion (1.6- to 8.8-fold increases over basal values). VIP (10(-6)-10(-4) M) stimulated dose-dependent increases in both aldosterone (1.7- to 41.0-fold) and corticosterone secretion (1.8- to 5.3-fold). However, glucagon and (N-Ac-Tyr1-D-Phe2)GRF-(1-29)NH2, peptides structurally related to VIP, stimulated neither aldosterone nor corticosterone secretion, indicating that VIP effects are likely to be specific for this peptide. It is noteworthy that in this preparation, the stimulation of corticosteroid secretion by VIP at 10(-5) and 10(-4) M was comparable to those by 10(-6) M angiotensin II and 10(-9) M ACTH, respectively. These results support the hypothesis that the VIP innervation of the adrenal cortex may contribute directly to the regulation of adrenal steroidogenesis.
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PMID:Vasoactive intestinal peptide stimulates adrenal aldosterone and corticosterone secretion. 335 77

An oral protein load or infusion of amino acids induces a rise in renal hemodynamics in normal subjects, but the mechanisms mediating this phenomenon are unknown. We investigated whether glucagon may mediate the increase in RPF and GFR induced by an arginine infusion and whether prostaglandins are required for this effect. In four different studies, normal subjects underwent 13 inulin and PAH clearances of 30 minutes each. During the fourth and tenth clearance periods arginine HCl, 250 mg/kg, was infused over 30 minutes. At the beginning of the fifth clearance period several subjects ingested indomethacin, 150 mg, (N = 8) or ibuprofen, 800 mg (N = 6). Control subjects (N = 4) did not receive cyclooxygenase inhibitors. Six subjects underwent a similar protocol except that they were infused with glucagon, 6 ng/kg/min, instead of arginine, for 30 minutes during the fourth and tenth periods. They also ingested indomethacin, 150 mg, in the fifth period. In all four studies, a transient and significant rise in RPF and GRF and fall in RVR occurred during the first arginine or glucagon infusion. These changes in renal hemodynamics were blocked when the arginine or glucagon infusion was repeated after administration of indomethacin or ibuprofen. Urinary excretion of 6-keto-PGF1 alpha did not rise with either arginine infusion in the control subjects or in the individuals who received indomethacin. As predicted, urinary 6-keto-PGF1 alpha fell significantly after ingestion of indomethacin before the second infusion of arginine. Plasma norepinephrine and epinephrine concentrations were unaffected by the arginine infusions or by indomethacin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucagon and prostaglandins are mediators of amino acid-induced rise in renal hemodynamics. 340 14

The functions of the Trp-25 and Met-27 residues and the free carboxy terminus of glucagon have been debated for many years. Despite some semi-synthetic data to the contrary, comparison of the glucagon sequence with the other 5 members of this family of peptides, all of them amides and particularly growth hormone-releasing factor(1-29) amide and its recently described analogues, suggests that alterations to these positions should be quite well tolerated in terms of biological activity. To test this prediction, [Phe-25,Leu-27]-glucagon amide was synthesized in high yield and was found to actually have superior glycogenolytic activity (196%) to glucagon in the rat. Replacement of Gly-4 by D-Phe, which has been shown to give much enhanced glycogenolytic activity than glucagon itself, also increased the activity of [D-Phe-4,Phe-25,Leu-27]-glucagon amide (518%). The L-Phe-4-analogue, [Phe-4,25,Leu-27]-glucagon amide, in contrast, was 20 times less active (30%), strongly suggesting the presence of a beta-bend in this N-terminal region of glucagon. This was supported by Chou-Fasman structural predictions which indicate extensive folding in the 1-15 region. Indeed, additional conformational restriction by substitution of D-Ser in position 2 of glucagon also increased activity to 226%. [D-Gln-3]-glucagon was slightly less active (74%) than glucagon. Chou-Fasman calculations on glucagon were compared to similar treatments of the VIP, secretin, PHI, and GRF(1-29) sequences.
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PMID:Superactive amidated COOH-terminal glucagon analogues with no methionine or tryptophan. 374 51

Two adult patients with unilateral hypoplastic optic nerves, absent septa pellucida and hypopituitarism are described. Patient 1, aged 20, presented with diabetes insipidus due to partial vasopressin deficiency. Patients 2, aged 29, presented with focal epilepsy. Both had short stature. They showed absent growth hormone (GH) response to insulin-hypoglycaemia or glucagon, but responded to 100 micrograms growth hormone releasing factor (GRF-44) with a rise in circulating GH, suggesting a hypothalamic defect in GH release though a co-existing pituitary defect cannot be excluded. Other hypothalamic-pituitary functions were normal. These two patients probably represent the milder form of the clinical spectrum of septo-optic dysplasia which, with the extensive use of CT brain scans, will be increasingly encountered by physicians attending adult patients.
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PMID:Hypothalamic defects in two adult patients with septo-optic dysplasia. 375 51

A single acute IV injection (1 microgram/kg) of the synthetic replicate of Somatocrinin (GRF) in 40 children with growth hormone (GH) deficiency induces a marked plasma GH increase, although heterogeneous. Clinical tolerance is excellent. Compared to Propranolol + Glucagon (P + G), GRF induces a better GH response. It also discriminates better idiopathic GH deficiency (n = 13), where mean GH peak = 6.5 ng/ml (3.3 after P + G) from GH deficiency secondary to a brain tumor (n = 24) where mean GH peak = 15.5 ng/ml (5.0 after P + G) GRF induces a slight Prolactin (Prl) increase, more obvious when basal Prl is elevated. However there is no correlation between GH and Prl responses to GRF even with basal hyperprolactinemia. GH response to GRF seems to slowly decrease after radiation therapy. GRF is a new potent, well tolerated secretagogue of GH and improves the diagnostic quality of the etiology of GH deficiency.
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PMID:[Somatocrinin and children in 1984. Application to the etiological diagnosis of somatotropin deficiencies]. 392 94

Synthetic human pancreatic GRF (hpGRF-44) was administered as an iv bolus to 28 normal children with short stature and 27 patients with GH deficiency. After a dose of 1 or 2 micrograms hpGRF-44/kg BW, mean plasma GH levels peaked at 15 and 30 min, respectively, with corresponding values of 30.1 +/- 4.7 and 33.2 +/- 3.7 ( +/- SE) ng/ml in normal but short children. The overall plasma GH response was greater than that of other GH stimulation tests such as insulin-induced hypoglycemia, glucagon-propranolol or L-dopa administration. Plasma LH, FSH, TSH, PRL, and cortisol levels were not altered by hpGRF-44 injection. Sixteen of 27 patients with GH deficiency did not respond to a 2 micrograms/kg BW hpGRF-44. However, plasma GH increases to greater than 5 ng/ml occurred in the remaining 11 patients. Their GH levels reached peaks between 15 and 90 min, with values ranging between 5.8 and 17.8 ng/ml. Two of these responding patients were infused iv with hpGRF-44 at 2.5 micrograms/min for 90 min after receiving an iv bolus injection of 2 micrograms/kg BW. Their plasma GH levels increased and remained near peak values throughout the infusion period. However, no increase in plasma GH levels occurred after a second bolus injection of hpGRF-44 given at the end of the infusion. These results suggest that hpGRF-44 is useful for the diagnosis of GH deficiency in individuals with short stature and that some patients with GH deficiency, diagnosed on the basis of established tests, have GH responses to hpGRF-44.
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PMID:Plasma growth hormone (GH) response to GH-releasing factor in normal children with short stature and patients with pituitary dwarfism. 642 Apr 32

We report the histological, ultrastructural, and immunocytochemical features of six hypothalamic gangliocytomas associated with pituitary GH cell adenomas and/or acromegaly. In four patients, the gangliocytoma was intrasellar, and no hypothalamic investigation was performed; in two patients, autopsy confirmed hypothalamic involvement. Four patients had a gangliocytoma associated with pituitary GH cell adenoma and acromegaly; electron microscopy demonstrated an intimate association between neurons and adenomatous GH cells. One patient had a gangliocytoma and a GH cell adenoma but no clinical evidence of acromegaly. In the sixth patient, clinical and biochemical acromegaly was manifest, but no pituitary adenoma was demonstrated. Using immunocytochemistry, human pancreatic tumor GRF (hptGRF-40) was localized in the majority of neurons of all six gangliocytomas. The pituitary adenomas and nontumorous adenohypophyses were negative for hptGRF-40. In addition, somatostatin, glucagon, and GnRH were demonstrated within some neurons of several tumors; insulin and gastrin stains were equivocal. These findings confirm previous proposals of production of a GRF by such gangliocytomas. While the significance of other peptides found in some of the tumors is uncertain, the presence of hptGRF-40 in neurons of these gangliocytomas supports the theory that GRF excess is the mechanism responsible for over-production of GH and provides evidence for a syndrome of hypothalamic acromegaly.
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PMID:A case for hypothalamic acromegaly: a clinicopathological study of six patients with hypothalamic gangliocytomas producing growth hormone-releasing factor. 642 59

Synthetic human pancreatic GRF (hpGRF-44) was administered as an iv bolus to 139 normal children of short stature and 63 patients with GH deficiency. After a dose of 1 and 2 micrograms hpGRF-44/kg BW, mean plasma GH levels peaked at 15 and 30 min, respectively, with corresponding values of 32.2 +/- 3.6 and 31.8 +/- 2.4 (+/- SE) ng/ml in normal but short children. There were no differences according to sex or age in plasma GH response to hpGRF-44 between the ages of 4 and 18 years. A similar plasma GH response was observed when 2 micrograms hpGRF-44/kg BW was administered two hours after lunch. The overall plasma GH response was greater than that of insulin-induced hypoglycemia and was similar to that obtained in the glucagon-propranolol test. Thirty-five of 63 patients with GH deficiency did not respond to a 2 micrograms hpGRF-44/kg BW. However, plasma GH increases to greater than 5 ng/ml occurred in the remaining 28 patients. Their mean GH level reached a peak at 90 min with a value of 8.8 +/- 0.8 ng/ml. These results suggest that hpGRF-44 is useful for evaluating pituitary GH reserve in children of short stature and that some patients with GH deficiency, diagnosed on the basis of established tests, have GH responses to hpGRF-44.
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PMID:Plasma GH response to hpGRF-44 in normal children of short stature and patients with GH deficiency. 642 64


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