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)

Combined Glucagon-Propranolol test used for study of growth hormone is advantages. The combined administration of TRH and LHRH is possible. In 53 children, the hormone responses (GH, TSH, FSH, LH and prolactin) were studied. This combined test allows the rapid assessment of anterior pituitary function.
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PMID:[Combined test for assessment of anterior pituitary function using glucagon-propranolol, TRH and LHRH (author's transl)]. 11 72

A 10-month-old boy with the clinical features of the diencephalic syndrome of emaciation due to a suprasellar spongioblastoma is described. The patient showed high basal levels of growth hormone (GH greater than 80 muU/ml on several occasions). In addition, elevated concentration of plasma testosterone (125.5 ng/100ml) was combined with a relatively high LH-increase to LHRH (45.6 mU/ml). After completion of irradiation basal GH-levels had been normalized, and GH responses to insulin induced hypoglycemia (IIH) and propranolol-glucagon (PG) were adequate. Complete clinical remission of emaciation occurred soon after radiation therapy and went parallel with the normalization of GH-regulation.
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PMID:Endocrine dysfunction in the diencephalic syndrome of emaciation in infancy. 71

The reaction products of plasma enzyme degradation of TRH were identified by thin layer chromatography. The enzyme in normal rat plasma yields proline and pGlu-His as major reaction products. High concentrations of proline decrease peptide cleavage, resulting in greater amounts of acid TRH. The apparent Km of the enzyme is 4.1 X 10(-6) M. LHRH and neurotensin are competitive inhibitors with Ki of 5 X 10(-6) M and 1.5 X 10(-5) M, respectively. Somatostatin, MIF, oxytocin, arg-vasopressin, arg-vasotocin, neurophysin II and glucagon do not compete; and pGlu-His-Pro-OH, Glu-His-Pro-OH, pGlu-His, His-Pro-NH2, and Pro-NH2 do not affect enzyme activity. These data suggest that the substrated requires pGlu and a terminal or internal amide to complex with the enzyme. The enzyme is markedly inhibited by Cu++, Bal, benzamadine, p-(chloromercuri)-benzoic acid, moderately affected by EDTA and puromycin, and unaffected by mercaptoethanol. TSH does not affect enzyme activity while LH inhibits it moderately at high concentrations (300-600 pg/ml).
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PMID:Characteristics of the plasma TRH-degrading enzyme. 81 19

To investigate the effects of medical treatment of endometriosis on concentrations of insulin and glucagon in comparison with those of androgens, 12 non-obese women with minimal endometriosis were randomly allocated to receive treatment with either danazol or the gonadotropin-releasing hormone analogue, goserelin. In subjects treated with danazol, mean (SD) summed serum insulin (1.08 (0.22) nmol/l pretreatment; 3.00 (1.50) nmol/l after treatment, p less than 0.05) and summed plasma glucagon (94 (21) pmol/l pretreatment; 238 (113) pmol/l after treatment, p less than 0.05) responses to oral glucose administration increased significantly, but remained unchanged in subjects treated with goserelin. In the danazol-treated group, the mean free testosterone index increased from 3.3 (1.6) to 13.3 (4.2) (p less than 0.01), but there was no correlation between either glucagon or insulin and free testosterone index. In the goserelin-treated subjects, however, there was no change in mean free testosterone indices (pretreatment 3.6 (1.0), post-treatment 3.9 (1.8). Thus, the increase in free testosterone index induced by danazol treatment is not responsible for the concomitant development of hyperinsulinaemia and hyperglucagonaemia.
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PMID:Influence of danazol and goserelin on insulin and glucagon in non-obese women with endometriosis. 214 53

The tissue-specific expression of a fusion gene encoding the mouse metallothionein-1 promoter and the coding region of the human GH-releasing hormone (hGRH) gene was studied in transgenic mice by immunohistochemistry using an anti-hGRH serum that does not recognize endogenous mouse GRH. hGRH immunoreactivity (GRH-IR) was detected in specific cells of the pituitary, pancreas, kidney, duodenum, lung, testis, ovary, adrenal, heart, and brain. In the pituitary, using double immunofluorescent staining, GRH-IR was found in some, but not all, somatotrophs, gonadotrophs, thyrotrophs, and mammotrophs. GRH-IR was found in both pancreatic exocrine cells and endocrine islets. Within the islet, GRH-IR was colocalized in A and D cells with glucagon and somatostatin, respectively. Immunopositive cells in other tissues were localized in kidney proximal convoluted tubules, duodenal submucosal glands of Brunner, the smooth muscles of pulmonary arterioles, testicular Leydig cells, oocytes, adrenal medullary chromaffin cells, and cardiac atria. In the brain, GRH-IR was seen in the external layer of the median eminence and in perikarya and fibers of the hypothalamic arcuate nucleus, the parvocellular region of the paraventricular nucleus, the supraoptic nucleus, and the amygdala. Somatostatin-immunoreactive cell bodies and fibers in transgenic and control mouse hypothalamus were not appreciably different. In summary, hGRH expression in transgenic mice occurs in a cell-specific manner in the hypothalamus as well as in numerous other tissues, many of which have secretory functions.
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PMID:Immunohistochemical analysis of human growth hormone-releasing hormone gene expression in transgenic mice. 250 76

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

The histology, histochemistry, and ultrastructure of 43 VIP-producing tumors (34 from the pancreas, one jejunal, six retroperitoneal and two mediastinic), 37 of which were associated with the WDHA syndrome, have been investigated on paraffin sections of primary or metastatic tumor tissue. The pancreatic and jejunal tumors showed all structural and secretory patterns of epithelial endocrine tumors, including expression of cytokeratin, neuroendocrine markers like neuron-specific enolase, chromogranins and synaptophysin, peptides like VIP, PHM, GRH, PP, insulin, neurotensin, glucagon, somatostatin and enkephalin, secretory granules, small clear vesicles, peculiar osmiophilic bodies, and occasional formation of tubules or microacini with specialized luminal surfaces. All the remaining tumors were neurogenic, showing either neurons and nerve fibers together with Schwann cells (ganglioneuromas and ganglioneuroblastomas) or endocrine cells (pheochromocytomas) reacting with VIP, PHM, NPY, enkephalin, somatostatin, neuron-specific enolase, synaptophysin, and MAP2 (but not cytokeratin, PP, or GRH) antibodies. A possible origin of pancreatic VIPomas from transformed pancreatic PP cells or ductular stem cells partially committed to differentiation along the PP cell line is suggested.
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PMID:The morphology and neuroendocrine profile of pancreatic epithelial VIPomas and extrapancreatic, VIP-producing, neurogenic tumors. 283 87

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

In order to compare the effects of somatostatin-28 (SS-28) with those of somatostatin-14 (SS-14) in humans, we administered both compounds randomly in 5 healthy persons and 3 patients with active acromegaly. Blood glucose, growth hormone, insulin, glucagon, TSH, FSH, LH and prolactin were estimated after arginine, TRH and LHRH stimulation in the normals and without stimulation in the acromegalics. Both substances were administered in doses of 25, 50, 200 and 250 micrograms. Our results indicate that SS-28 is at least 5 times more potent in man than SS-14 as far as inhibition of growth hormone, insulin, glucagon and prolactin secretion is concerned. On the other hand SS-28 is at least 2 times more potent than SS-14 in the inhibition of TSH, FSH and LH. If this difference in potency is calculated on the basis of equimolarity, the action of SS-28 becomes even much greater. According to these findings, SS-28 appears to be either the main hormone and SS-14 a fragment of it with a lesser degree of biologic activity, or the prohormone with special properties.
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PMID:Differences between somatostatin-28 and somatostatin-14 with respect to their biological effects in healthy humans and acromegalics. 288 Jun 90

Within the past year, three similar peptides with specific growth hormone (GH) releasing effects have been extracted from human tissue, identified, and synthesized. Human pancreatic tumor GH releasing factor (I-40)-OH (hpGRF-40) was the sole hpGRF isolated from the pancreatic tumor of a patient in Charlottesville and was the predominant peptide isolated from the pancreatic tumor of a patient in Lyon. The Lyon tumor also contained hpGRF(1-37)-OH and hpGRF(1-44)-NH2. Both immunological and biochemical data suggest that hpGRF-40 and hpGRF-44 are present in the human hypothalamus and may be the human GH releasing hormone(s) (GHRH). In cultures of rat pituitary cells, hpGRF stimulates GH but affects neither basal and dopamine-inhibited prolactin release nor basal and gonadotropin releasing hormone (GnRH)-stimulated luteinizing hormone (LH) release. hpGRF stimulates cyclic AMP production within seconds, an effect which is blocked by somatostatin. In contrast, while hpGRF stimulates phosphatidylinositol turnover in the pituitary, the effect is not inhibited by somatostatin. In the human, hpGRF-40 (1 microgram/kg) given intravenously (i.v.) stimulates GH release within 5 minutes. hpGRF-40 does not elevate serum prolactin levels, thyrotropin (TSH), LH, or corticotropin (measured indirectly through plasma cortisol), or blood glucose or plasma concentrations of insulin, glucagon, pancreatic polypeptide, cholecystokinin, gastrin, gastric inhibitory peptide, motilin, or somatostatin. When graded doses of hpGRF (0.1-10 micrograms/kg) are given i.v., no differences are noted in the maximal levels of serum GH achieved.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Human pancreatic tumor GH-releasing factor. 298 23


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