UNIPROT:P01350 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01350 (gastrin)
9,683 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Perifusion of rat anterior pituitary cell aggregates, cultured in estrogen-supplemented serum-free medium with 1 nM of the bombesin (BBN)-like peptide, neuromedin C (NMC), significantly stimulates GH and PRL release. This effect is dose-dependently inhibited by the BBN receptor blocker L 686,095-001C002 [an N-pivaloyl-gastrin-releasing-peptide(20-25) alkylamide]. The IC50 was 0.20 nM in the case of the GH response and 0.16 nM in the case of the PRL response. The antagonist has no effect on basal PRL or GH release. [Leu13, psi CH2NH-Leu14]BBN (psi BBN) displays an IC50 of 0.41 microM for inhibiting the GH response and 0.36 microM for inhibiting the PRL response to NMC. At a concentration of 0.5 microM or 5 microM, however, the latter antagonist stimulates PRL and GH release when perifused alone. This stimulatory effect is dose dependent, augments when aggregates are cultured in 1 nM E2 (as is the case for NMC) and is abolished by 2 nM L 686,095-001C002. It is concluded that L 686,095-001C002 is a potent and pure antagonist of pituitary BBN receptors mediating PRL and GH release, whereas psi BBN is a relatively weak antagonist with considerable partial agonist activity.
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PMID:Effect of the bombesin receptor blockers [Leu13, psi CH2NH-Leu14]bombesin and N-pivaloyl GRP(20-25) alkylamide (L 686,095-001C002) on basal and neuromedin C-stimulated PRL and GH release in pituitary cell aggregates. 164 16

A total of 79 consecutive patients with pituitary tumours were screened for multiple endocrine neoplasia type 1 (MEN-1). The 79 patients included 21 patients with acromegaly, nine with Cushing's disease, 18 with prolactinomas, three with mixed pituitary adenomas (GH and PRL), and 28 patients with no detectable hypersecretion of hormones. The screening consisted of: (1) a family history, (2) a uniform medical history of the patient using a standard questionnaire, and (3) hormonal evaluation including measurements of the serum levels of insulin, gastrin, glucagon, somatostatin, vasoactive intestinal polypeptide and pancreatic polypeptide. Ionized calcium and glucose concentration in serum were also measured. We found no patients with the MEN-1 syndrome. In one patient, we found a transient elevation of serum concentrations of pancreatic polypeptide for which we have no explanation. In another patient, the serum gastrin concentration was elevated secondary to achlorhydria. No other endocrine disorders were found, and no patients had relatives with recognized endocrine pancreatic tumours, primary hyperparathyroidism (HPT), or pituitary adenomas.
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PMID:Screening for multiple endocrine neoplasia type 1 in patients with recognized pituitary adenoma. 198 64

The purpose of the study was to evaluate some of the hormones in 20 patients with alcoholic cirrhosis. We investigated the diurnal rhythmicity of some of the hormones (cortisol, follicle-stimulating hormone-FSH, luteinizing hormone-LH, growth hormone-LH, prolactin-PRL) and basal serum concentrations of thyroid-stimulating hormone (TSH), triiodothyronine (T3), thyroxine (T4) and testosterone, as well as gastrin and insulin, using provocative tests. Statistical analysis of the results obtained from the observed patients compared with controls, showed significantly lower concentrations of T3 (p less than 0.05), cortisol (p less than 0.05), testosterone (p less than 0.05) and FSH (p less than 0.05), and significantly higher (p less than 0.01) serum concentration of prolactin. Then, in the cirrhotic group the serum concentrations of gastrin and insulin increased significantly (p less than 0.01), together with the disorders of carbohydrate metabolism (impaired glucose tolerance and diabetes mellitus. The described disturbances of some of the observed hormones are complex, particularly in their relationship by which the clinical picture of the cirrhotic patients can be explained.
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PMID:[Hormone levels in patients with alcoholic liver cirrhosis]. 249 Sep 94

We sought an explanation for prior findings of high plasma chromogranin-A (Chr-A) in primary hyperparathyroidism. Chr-A was measured in plasma samples from 55 controls and 73 patients with primary hyperparathyroidism caused by adenoma (n = 14), sporadic or familial hyperplasia (n = 10), or familial multiple endocrine neoplasia type 1 (FMEN1; n = 49). Serum or plasma samples were also tested for calcium, PTH, gastrin, pancreatic polypeptide, CG alpha, and PRL. Plasma Chr-A was 34 +/- 10 in parathyroid adenoma, 55 +/- 33 in parathyroid hyperplasia without FMEN1, 63 +/- 88 in FMEN1, and 25 +/- 8 in controls (mean +/- SD; nanograms per ml; FMEN1 or parathyroid hyperplasia vs. control, P less than 0.05). Plasma Chr-A did not correlate with other hormonal variables in controls. Plasma Chr-A correlated with log serum gastrin (r = 0.43; P = 0.003) and plasma PTH (r = 0.52; P less than 0.05) only in FMEN1. In FMEN1, plasma Chr-A was highest in subjects with Zollinger-Ellison syndrome (ZES, 120 +/- 127; no ZES, 30 +/- 33 (P less than 0.0001). Parathyroidectomy did not decrease plasma Chr-A in patients with parathyroid adenoma or parathyroid hyperplasia. For FMEN1 patients with available pre- and postparathyroidectomy samples, Chr-A decreased postoperatively in four of five patients with ZES compared to none of six patients without ZES (P less than 0.05). Elevated plasma Chr-A is not a general feature of primary hyperparathyroidism. Elevated plasma Chr-A in primary hyperparathyroidism was restricted principally to patients who also had ZES. Primary hyperparathyroidism may influence the level of Chr-A by an effect of hypercalcemia or elevated PTH on Chr-A secretion from pancreatic islet tissue.
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PMID:Plasma chromogranin-A in primary hyperparathyroidism. 257 19

We tested plasma from 83 members of a large kindred with familial multiple endocrine neoplasia type 1 (FMEN1) for mitogenic activity on cultured bovine parathyroid cells. We evaluated the age dependency of parathyroid mitogenic activity (PMA) in plasma from affected and unaffected members of the kindred, and we analyzed the relation of plasma PMA to indices of activity of parathyroid, pancreatic islet, and anterior pituitary tissue. Plasma PMA was higher in members expressing the FMEN1 gene than in their unaffected first, second, third, or fourth degree relatives (P less than 0.05), and 10 of 20 members expressing the FMEN1 gene had plasma PMA above the 95% limit of the control range. Plasma PMA was not dependent on sex or age; the lack of age dependency and the high values in FMEN1 gene carriers suggested that plasma PMA is elevated in some FMEN1 gene carriers very early in life. Plasma PMA in known gene carriers varied significantly with one index of parathyroid function [plasma PMA was 2.5 times higher in the group with than in the group without prior parathyroidectomy (P less than 0.005), an indicator of more severe prior parathyroid disease] and correlated positively, although not significantly so, with indices of pancreatic islet function (serum gastrin by RIA) and anterior pituitary function (serum PRL by RIA). In summary, (1) plasma PMA levels are high in many known carriers of the FMEN1 gene, (2) the high plasma PMA levels in FMEN1 may precede overt endocrine hyperfunction; and (3) high plasma PMA levels vary with one index of parathyroid function, but do not correlate with indices of pancreatic islet or anterior pituitary function in members expressing the FMEN1 gene. The high plasma PMA levels in FMEN1 may be the direct cause of hyperfunction of the parathyroids, but the relation of high plasma PMA to hyperfunction of the pancreatic islets and anterior pituitary is uncertain.
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PMID:Mitogenic activity on parathyroid cells in plasma from members of a large kindred with multiple endocrine neoplasia type 1. 289 72

Secretory protein-I (SP-I) of parathyroid glands and chromogranin A ( CGA ) of adrenal medullary chromaffin cells are chemically similar if not identical proteins. Both proteins are contained within secretory granules and appear to be cosecreted with granule contents, for example, in the parathyroid with PTH and in the adrenal with epinephrine and dopamine beta-hydroxylase. Antisera to bovine SP-I and porcine CGA , together with antisera to a variety of peptide hormones, were used in an immunofluorescence study of rat tissues in order to determine the probable distribution and cellular localization of these proteins. In addition to their previously demonstrated presence in parathyroid and adrenal cells, the SP-I/ CGA protein family was detected in cells of the thyroid that contained calcitonin and often SRIF but not thyroglobulin; in cells of the anterior pituitary staining for the alpha-subunit of TSH/FSH/LH but not in cells staining for GH, PRL, ACTH, or beta-endorphin; in pancreatic islet cells staining for SRIF and pancreatic polypeptide-related peptides, but not for insulin or glucagon; in the celiac and mesenteric ganglia in cells some of which contained SRIF; and in the gastric antrum in cells containing SRIF, but not gastrin. SP-I/ CGA was not detected in cells of the liver, kidney, parotid gland, or acinar pancreas or in the intermediate or posterior lobes of the pituitary. These results suggest that this protein family enjoys a widespread but highly restricted distribution in many different endocrine-peptide cells of the rat, many that are believed to be of the APUD cell series. The possibility is raised that SP-I/ CGA plays some physiological role in the secretory process or exerts an effect of its own in the periphery after secretion.
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PMID:Selective localization of the parathyroid secretory protein-I/adrenal medulla chromogranin A protein family in a wide variety of endocrine cells of the rat. 623 31

Synthetic neurotensin was infused into five healthy subjects at a mean dose of 2.3 pmol/kg . min for 30 min, producing a rise in plasma neurotensin concentrations, measured by RIA of 104 +/- 10 (mean +/- SEM) pmol/liter. The mean disappearance half-time on stopping the infusion was 3.8 +/- 0.2 min. The MCR was 16 +/- 1 ml/kg . min, and the apparent space of distribution was 88 +/- 6 ml/kg. During the neurotensin infusions, plasma pancreatic polypeptide rose by 145 +/- 54 pmol/liter. In contrast to results in experimental animals, there was no significant change in the pulse or blood pressure of the subjects or any significant change in blood glucose or plasma concentrations of insulin, glucagon, gastric inhibitory peptide, gastrin, motilin, or vasoactive intestinal peptide. Similarly, there was no change in plasma concentrations of TSH, GH, PRL, LH, and FSH.
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PMID:Neurotensin infusion in man: pharmacokinetics and effect on gastrointestinal and pituitary hormones. 700 47

A variety of neuropeptides, such as TRH, somatostatin, VIP, Substance P, neurotensin, CCK, gastrin, and opioid peptides, alter secretion of GH and PRL from the pituitary. These actions differ according to the route of administration or with experimental conditions, especially anesthesia. Among these peptides, the most consistent results have been obtained with opioid peptides, which stimulate GH and PRL release. Both beta-endorphin and enkephalins are capable of stimulating GH and PRL release in anesthetized and unanesthetized, freely moving rats. The effect is blocked by naloxone, an opiate receptor antagonist. GH secretion induced by opioid peptides seems to be mediated by an alpha-adrenergic mechanism, since treatment with DDC and fusaric acid, which are dopamine-beta-hydroxylase inhibitors, reserpine, and phenoxybenzamine which is an alpha-adrenergic blocking agent, blunted GH secretion. However, pimozide, a dopamine receptor antagonist, and propranolol, a beta-adrenergic blocking agent, were without effect. On the other hand, basal PRL secretion was augmented by pimozide, suggesting the possible involvement of dopamine. It is also possible that serotonin is involved in the GH and PRL release induced by opioid peptides. The physiological significance of opioid peptides in regulating GH and PRL secretion is still unclear. Contradictory results (12,25) have been obtained concerning the effect of naloxone on basal or stimulated GH and PRL secretion in rats, monkeys and humans when tested by the continuous blood sampling method, which rules out the erroneous evaluation of results caused by episodicity of plasma hormone levels. Further studies should clarify the physiological role of opioid peptides in regulating pituitary function.
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PMID:Effect of CNS peptides on hypothalamic regulation of pituitary secretion. 701 Sep 47

Bombesin, a peptide with widespread biological actions, has been demonstrated in human tissues by immunological methods. To investigate its effect in man, synthetic bombesin was infused at low doses in six male volunteers. Bombesin at 2.4 pmol kg-1 min-1 produced significant rises in plasma insulin, glucagon, pancreatic polypeptide, gastrin, cholecystokinin, motilin, glucose-dependent insulinotropic polypeptide, neurotensin, enteroglucagon, vasoactive intestinal polypeptide, and serum calcium. In contrast, bombesin caused a profound fall in parathyroid hormone levels and reduced plasma glucose concentrations. A late rise in plasma calcitonin was also observed. Bombesin had no significant effect on the pituitary hormones, TSH, GH, PRL, or cortisol. No hormonal changes or alterations in calcium were noted during saline infusions. Bombesin has a marked stimulatory effect on gastrointestinal hormones, which is unique and opposite to the effect of somatostatin, a potent inhibitor of gut hormone release. Bombesin also influences calcium-regulating hormones, either directly or through its action on gut hormones. The bombesin concentrations achieved with the dosages used were low enough to indicate a possible physiological role for the endogenous peptide.
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PMID:Bombesin: action on gut hormones and calcium in man. 706 3

In the present study we investigated the effects of the somatostatin (SS) analogs octreotide, RC-160, and BIM-23014 on GH release by cultured cells of human GH-secreting pituitary tumors, in normal rat anterior pituitary cells, and on gastrin release by cultured cells from a human gastrinoma. In all GH-secreting adenomas and in rat anterior pituitary cells, RC-160 was the most potent compound. RC-160 significantly inhibited GH-, PRL, and/or alpha-subunit release by human GH-secreting pituitary adenoma cells in concentrations as low as 10(-12)-10(-14) M, whereas at the same concentrations, octreotide and BIM-23014 did not inhibit or were significantly less effective in inhibiting GH release (P < 0.01, RC-160 vs. octreotide and BIM-23014). In rat anterior pituitary cell cultures, the IC50 values for inhibition of GH release were, in rank order of potency, 0.1, 5.3, 47, 48, and 99 pM for RC-160, SS-14, BIM-23014, octreotide, and SS-28, respectively. Maximal inhibitory effects by the three analogs were the same in the human GH adenoma cell cultures and the rat anterior pituitary cell cultures (-60%). On the basis of these data, RC-160 appears to be about 500 times more potent than octreotide and BIM-23014 in inhibiting GH release by rat anterior pituitary cells in vitro. Forskolin (100 microM) as well as pretreatment of the cells with pertussis toxin significantly diminished the inhibitory effects of the three SS analogs and those of SS-14 and SS-28 to the same extent. The latter data suggest that octreotide, RC-160, and BIM-23014 act mainly via a pertussis toxin-sensitive G-protein and an adenylyl cyclase-dependent mechanism. In the human gastrinoma culture, RC-160 inhibited gastrin release significantly more than octreotide at 10(-12)- and 10(-14)-M concentrations (P < 0.01). In conclusion, the SS analogs octreotide, RC-160, and BIM-23014 may have significant different potencies of inhibition of hormone release in vitro, with RC-160 being the most potent SS analog and octreotide and BIM-23014 having similar potencies. Depending on the pharmacokinetic properties of these three octapeptide SS analogs, these observations may have consequences for the medical therapy of patients with SS receptor-positive endocrine tumors.
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PMID:Relative potencies of the somatostatin analogs octreotide, BIM-23014, and RC-160 on the inhibition of hormone release by cultured human endocrine tumor cells and normal rat anterior pituitary cells. 790 31

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