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 adenylate cyclase responses of the human GH or ACTH producing pituitary adenomas and ectopic ACTH producing tumors to TRH, LH-RH, biogenic amines, peptides hormones, PGE1 and rat median eminence extract (MEE) have been examined. Out of 4 GH producing pituitary adenomas obtained from patients with active acromegaly at hypophysectomy two were stimulated by TRH, two by LH-RH, three by norepinephrine, one by dopamine, four by PGE1 and none by serotonin. Glucagon stimulated the adenylate cyclase in one of three and MEE in both of two tested. The positive responses of paradoxical GH release after TRH and/or LH-RH before surgery in these patients coincidentally related to the response of adenylate cyclase of each pituitary adenoma. There seems, however, to be no consistent correlation between the adenylate cyclase responses to biogenic amines and the GH release after L-Dopa or 5-hydroxytroptophan tested. The adenylate cyclase of a pituitary adenoma from case of Cushing's disease was stimulated by LH-RH, norepinephrine glucagon and MEE but not by TRH. Plasma levels of ACTH, beta-MSH and cortisol increased after LH-RH but not after TRH in this patient before hypophysectomy. The adenylate cyclase of two ectopic ACTH producing tumors (gastric carcinoid and malignant thymoma) was activated by TRH, LH-RH, norepinephrine, epinephrine, serotonin, PGE1 and MEE. These results indicate the presence of multiple hormone receptors in GH or ACTH producing pituitary adenomas and ectopic ACTH producing tumors, and suggest that the paradoxical GH or ACTH release after TRH and/or LH-RH injection in acromegaly and Cushing's syndrome might be caused by an alteration of the cellular membrane receptors of the pituitary adenomas.
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PMID:Adenylate cyclase of GH and ACTH producing tumors of human: activation by non-specific hormones and other bioactive substances. 19 Feb 56

GHRH receptors in pituitary adenoma cell membranes from five patients with acromegaly were characterized using [125I] [His1,Nle27]GHRH-(1-32)NH2 ([125I]GHRHa) as a ligand. Specific binding of [125I]GHRHa to adenoma cell membranes was maximal within 20 min at 24 C, remained stable for 60 min, and was reversible in the presence of 500 nmol/L human GHRH-(1-44)NH2 (hGHRH). The specific binding increased linearly with 10-160 micrograms cell membrane protein. This binding was inhibited by 10(-11)-10(-6) mol/L hGHRH in a dose-dependent manner, with an ID50 of 0.20 nmol/L, but not by 10(-7) mol/L vasoactive intestinal peptide, glucagon, somatostatin-14, somatostatin-28, TRH, LHRH, and CRH. The specific binding of [125I]GHRHa to the membranes was saturable, and Scatchard analysis of the data revealed an apparent single class of high affinity GHRH receptors in five adenomas from acromegalic patients; the mean dissociation constant was 0.30 +/- 0.07 (+/- SE) nmol/L, and the mean maximal binding capacity was 26.7 +/- 7.0 (+/- SE) fmol/mg protein. In three nonfunctioning pituitary adenomas, GHRH receptors were not detected. The plasma GH response to hGHRH (100 micrograms) injection was studied in four acromegalic patients before surgery. Plasma GH levels increased variably in response to hGHRH injection in all four patients. However, there was no correlation between the characteristics of the tumor GHRH receptors and plasma GH responsiveness in these patients. We conclude that pituitary GH-secreting adenomas have specific GHRH receptors. Exogenously administered GHRH presumably acts via these receptors, but the variations in plasma GH responsiveness to hGHRH in these patients cannot be directly related to the variations in binding characteristics of the GHRH receptors on the GH-secreting adenoma cells.
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PMID:Characterization of growth hormone-releasing hormone receptors in pituitary adenomas from patients with acromegaly. 283 73

Specific somatostatin (SRIH) receptors on human pituitary adenoma cell membranes were characterized using [125I]Tyr11-SRIH as the radioligand. Specific binding of [125I] Tyr11-SRIH to adenoma cell membranes reached a steady state within 30 min at 25 C, and semilogarithmic analysis of the data revealed that the rate of the binding was linear at 25 C with a t1/2 of 13.2 min. Specific binding increased linearly with 5-160 micrograms plasma membrane protein. SRIH-14 and SRIH-28 inhibited [125I]Tyr11-SRIH binding to adenoma cell membranes with ID50S of 0.32 and 0.50 nM, respectively, while secretin, glucagon, gastrin, cholecystokinin-8, bombesin, TRH, LHRH, human GH-releasing factor-(1-44)-NH2, D-Ala2-met-enkephalin, gamma-aminobutyric acid and taurine did not significantly inhibit binding. All of 13 GH-secreting adenomas investigated had specific and high affinity SRIH receptors, with a dissociation constant (Kd) of 0.80 +/- 0.15 nM (mean +/- SEM) and a maximal binding capacity (Bmax) of 234.2 +/- 86.9 fmol/mg protein (mean +/- SEM). Among five of the nonsecreting pituitary adenomas examined, two had SRIH receptors with Kd values of 0.18 and 0.32 nM and Bmax values of 17.2 and 48.0 fmol/mg protein, respectively. In the remaining three, SRIH receptors were not detected. These results indicate that GH-secreting adenomas as well as some nonfunctioning adenomas have specific SRIH receptors, and hence, the function of the adenomas could be altered by SRIH.
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PMID:Specific somatostatin receptors on human pituitary adenoma cell membranes. 286 81

A case of pituitary adenoma associated with pancreatic islet cell tumor is presented. A 29-year-old man with symptoms of confusion and abnormal behaviour was admitted to the neurosurgical department. He was diagnosed as suffering from multiple endocrine adenomatosis (MEA) type 1. Screening of his family members revealed that his mother had high levels of gastrin, glucagon and parathormone and his father had a high level of gastrin. The pituitary adenoma and pancreatic tumor were removed satisfactorily. Family members as well as the patient should be checked periodically.
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PMID:A case of multiple endocrine adenomatosis type 1. 288 Apr 38

We report the first documentation of GHRH production by a tumour associated with proven multiple endocrine neoplasia (MEN). A 30-year-old woman had hypoglycaemia, hyperparathyroidism, and pituitary adenoma with hyperprolactinaemia. Serum growth hormone elevation was attributed to hypoglycaemia but plasma GHRH was elevated. Subtotal pancreatectomy revealed multiple endocrine tumours and nesidioblastosis. Immunohistochemistry demonstrated insulin, glucagon, and somatostatin in several tumours. GHRH was localized in the largest one and was released from that tumour in vitro. Post-operative plasma GH returned to normal. Excess secretion of humoural factors by one tumour may stimulate growth of other tumours in MEN syndromes. The prevalence of GHRH in MEN-I tumours remains to be established.
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PMID:Pancreatic endocrine tumour producing growth hormone-releasing hormone associated with multiple endocrine neoplasia type I syndrome. 288 80

A 54 year old woman suffered from acromegaly due to a pancreatic islet cell tumour producing GHRH. The tumour was demonstrated on CT scan. The diagnosis was established from elevated plasma levels of GHRH, GH and prolactin, and by the lack of signs of a pituitary adenoma in trans-sphenoidal surgery. Acromegaly was cured by tumour removal. Light microscopically, the tumour showed a medullary and microlobular pattern. The cells were large and often cuspidal. Small granules were found in semi-thin sections. Small aggregations of amyloid fibres were seen, mostly around capillaries. Immunocytochemistry revealed GHRH, NSE, neurotensin, serotonin, VIP and PP. S 100 was positive only in nerve fibres. Staining for GH, ACTH, calcitonin, alpha-HCG, beta-HCG, insulin, glucagon, gastrin, substance P, bombesin and somatostatin was negative. Ultrastructure showed oval partly lobulated nuclei with small nucleoli, moderate amounts of rough endoplasmic reticulum, many free ribosomes, some large Golgi fields and small numbers of secretory granules measuring 150 nm or, in a few cells, 650 nm. Only 4 other cases of pancreatic endocrine tumours causing acromegaly by ectopic GHRH secretion are described in the literature and these were similar to our case in many respects.
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PMID:Morphology of a GHRH producing pancreatic islet cell tumour causing acromegaly. 301 79

The distribution of chromogranin A and secretogranin I (chromogranin B) in normal and neoplastic human endocrine tissues was analyzed with two human monoclonal antibodies against chromogranin A, anti-bovine antiserum against chromogranin A, and an anti-rat antiserum against secretogranin I. Western blotting analyses showed both chromogranin A and secretogranin I in normal adrenals, pheochromocytomas, a pituitary adenoma, and in normal pituitary glands, but not in a bladder carcinoma. Rat adrenal medullary and anterior pituitary tissues reacted with the polyclonal chromogranin A and secretogranin I antisera, but not with the two monoclonal chromogranin A antibodies. All antibodies reacted with most of the neuroendocrine cells and tumors examined. Pituitary prolactinomas contained immunoreactive secretogranin I, but not chromogranin A. Analysis of the distribution of chromogranin A and secretogranin I in pancreatic islet cells showed that chromogranin A was found predominantly in the glucagon-producing A cells, whereas secretogranin I was present in less than 5% of islet cells. These results indicate that chromogranin A and secretogranin I are both useful in the characterization of some neuroendocrine cells and neoplasms.
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PMID:Distribution of chromogranin A and secretogranin I (chromogranin B) in neuroendocrine cells and tumors. 334 49

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

This report describes the histologic, immunocytochemical, and ultrastructural study of a multihormonal carcinoid tumor of the pancreas, secreting a growth hormone releasing factor (GRF) which provoked acromegaly. The patient presented a nonfamilial multiple endocrine neoplasia, type 1. The absence of radiologic signs of a pituitary adenoma in conjunction with elevated plasma levels of pancreatic polypeptide, glucagon, somatostatin, as well as growth hormone (GH), led to the discovery of the tumor. Its surgical excision produced a rapid disappearance of most of the clinical and biologic disorders. No immunoreactive GH was found in the tumor using radioimmunoassay and immunocytochemistry. In contrast, three peptides with GH-releasing activity were extracted and characterized. Immunocytochemistry showed that the GRF-reactive cells, together with rare somatostatin-storing cells, made up areas which demonstrated a medullary pattern of growth with extracellular amyloid deposits. Under electron microscopic examination, actively secreting cells were observed which carried endocrine granules of 100 to 150 nm in diameter. The other regions of the tumor presented a different type of growth and were composed of pancreatic polypeptide-, glucagon-, or somatostatin-reacting cells. Cells immunostained with antisera raised against beta-endorphin were also noted. These data suggest that GRF may be a new biologic marker for pancreatic endocrine tumors.
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PMID:Multihormonal carcinoid tumor of the pancreas. Secreting growth hormone-releasing factor as a cause of acromegaly. 643 52

Octreotide is a synthetic octapeptide somatostatin analogue which has higher potency and longer duration of action than the natural hormone. It is effective after subcutaneous administration and no rebound hypersecretion has been observed. Pharmacological effects of octreotide include inhibition of numerous hormones (growth hormone, TSH, insulin, glucagon and all gut hormones), of exocrine secretion (gastric acid, pancreatic enzyme), and of small-bowel absorption. This review deals with clinical application of octreotide in endocrine disorder. In patients with acromegaly octreotide treatment results in decrease of growth hormone (GH) and IGF-I together with tumour shrinkage and clinical improvement. Although variability in response to treatment is obvious for majority of patients the most effective dose is 100 mcg three times daily subcutaneously. Normalization of GH levels could be achieved in more than 50% of treated patients. It has also been shown that octreotide could be effective in TSH secreting pituitary adenoma, ACTH secreting adenoma as well as in non-secretory pituitary tumours. A marked biochemical and clinical responses together with longer survival have been reported in most of the patients with gastroenteropancreatic (GEP) tumours. Patients who benefit the most from octreotide therapy are those with carcionid syndrome (successful control of diarrhoea, flushing episodes and wheezing) and VIPomas (control of diarrhoea). In patients with insulin-dependent diabetes mellitus (IDDM) octreotide suppresses GH levels, postprandial blood glucose increases with resultant decrease in daily insulin requirements. In women with polycystic ovary syndrome (PCOS) octreotide has inhibitory effect on serum LH and ovarian androgens. This could have beneficial effect on ovulatory performance in women with PCOS.
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PMID:[Clinical use of octreotide (Sandostatin) in endocrinology]. 799 11


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