UNIPROT:P06889 - FACTA Search

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1. In 29 patients with acromegaly, plasma renin activity and growth hormone were measured during fasting and recumbency on free diet. Exchangeable sodium was measured in all cases and expressed as a percentage of the expected value on the basis of lean body mass. 2. Twenty-two control subjects without evidence of cardiovascular, renal or endocrine disease were studied in the same way. 3. There was a significant increase in exchangeable sodium and suppression of plasma renin activity in the acromegalic patients in comparison with control subjects. 4. There was a significant positive correlation between exchangeable sodium and plasma growth hormone. 5. Hypertensive acromegalic patients (diastolic blood pressure larger than or equal to 100 mmHg) tend to have a lower (although not significantly so) exchangeable sodium than normotensive subjects. 6. We conclude that (a) suppression of plasma renin activity in acromegaly can be explained by sodium retention, (b) hypersecretion of growth hormone is probably responsible for the increased exchangeable sodium, and (c) sodium overload cannot be directly related to blood pressure but may contribute to the increased occurrence of hypertension in acromegaly.
Clin Sci Mol Med 1977 Jul
PMID:An investigation into the pathogenesis of hypertension in acromegaly. 87 24

Somatostatin analogs are used in the control of hormonal hypersecretion and tumor growth of patients with acromegaly, islet cell carcinomas and carcinoids. Recently we showed that somatostatin receptor positive tumors can be visualized in vivo after the administration of radioactive isotope-labelled somatostatin analogs. Receptor imaging was positive in 18/21 islet cell tumors, 30/31 carcinoids, 26/28 paragangliomas, 9/14 medullary thyroid carcinomas, 5/7 small cell lung cancers, 6/7 neuroblastomas, 38/49 primary breast cancers, and 0/18 pancreatic adenocarcinomas. Also 11/11 meningiomas, 4/4 astrocytomas and 0/3 glioblastomas could be visualized. Somatostatin receptor imaging is an easy, harmless and painless diagnostic method. It is an in vivo method for the recognition of neuroendocrine cancers. It localizes multiple and/or metastatic tumors, predicts the successful control of hormonal hypersecretion by octreotide and seems of prognostic value in certain types of cancer. This scintigraphic method might help in patient selection for clinical trials with somatostatin analogs in the treatment of neuroendocrine cancers.
J Steroid Biochem Mol Biol 1992 Sep
PMID:Somatostatin receptor imaging in the diagnosis and treatment of neuroendocrine tumors. 135 13

Growth hormone [GH] and prolactin [PRL] can be demonstrated simultaneously in electron micrographs by means of the double immunocytochemical labeling technique using colloidal gold particles of two different sizes. This method was used to study biopsy specimens obtained from 15 patients suffering from acromegaly, 11 patients suffering from prolactinomas, and eight biopsy specimens obtained during adenomectomy from the normal, paraadenomatous pituitary tissue. Four granule populations with different immunoreactions were found: (1) granules containing GH only, (2) granules containing PRL only, (3) mixed granules containing GH and PRL, and (4) granules displaying no immunoreactivity. The existence of mixed granules indicated that the two hormones are synthesized by the same cell and in communicating compartments of the cells; i.e., the rough-surfaced endoplasmic reticulum. The number of GH-containing granules (pure GH granules and mixed GH-PRL granules) was greater than that of PRL-containing granules (pure PRL granules and mixed PRL-GH granules) in adenomas causing acromegaly and in the normal pituitary tissue, whereas the opposite was true for prolactinomas. The number of PRL-containing granules was larger in biopsy specimens from patients who had acromegaly and hyperprolactinemia than in patients with acromegaly and normal serum PRL levels.
Virchows Arch B Cell Pathol Incl Mol Pathol 1987
PMID:Distribution of growth hormone and prolactin in secretory granules of the normal and neoplastic human adenohypophysis. 288 94

Cardiac enlargement and dysfunction are common in patients with acromegaly. Whether these changes are a direct consequence of growth hormone excess is obscured by the high frequency of hypertension, diabetes mellitus, or atherosclerosis in acromegalic patients. In this study, the effects of chronic elevations of growth hormone (GH) upon the heart were studied in rats with GH-producing tumours implanted subcutaneously for 4 weeks. Geometric measurements and histology were employed to detect the presence of cardiac changes. Increased mass was observed in the tumour-bearing animals. When compared with controls, in tumour-bearing rats there were significantly greater (P less than 0.05) right (0.17 +/- 0.03 v. 0.13 +/- 0.01 g) and left (0.62 +/- 0.05 v. 0.50 +/- 0.04 g) ventricular weights, external cardiac dimensions, and myocardial fibre diameters (9.4 +/- 0.6 v. 8.3 +/- 0.4 micron). However, these increases were linearly-related to increased body mass in the tumour-bearing group so that the ratios of ventricular weights to body weight were similar in both groups. Furthermore, no pathologic changes such as myocardial fibrosis or asymmetric septal hypertrophy were present in the tumour-bearing rats. Thus, under the conditions of this study, growth hormone excess induced cardiac growth, which appeared to represent a manifestation of generalized body growth rather than a distinct pathologic process.
J Mol Cell Cardiol 1985 Aug
PMID:Cardiac morphology in rats with growth hormone-producing tumours. 293 34

1. Somatostatin (SRIF) exerts diverse physiological actions in the body including regulation of hormone and neurotransmitter release and neuronal firing activity. Analogs of SRIF are used clinically to treat tumors and cancers and to block the hypersecretion of growth hormone in acromegaly. 2. The recent cloning of five SRIF receptor subtypes has allowed for the identification of the molecular basis of the cellular actions of SRIF. The ligand binding domains and regions involved in coupling to G proteins and cellular effector systems are being identified and the processes by which SRIF inhibits cell growth and proliferation are being established. Furthermore, subtype selective agonists have been generated which are being used to investigate the specific biological roles of each SRIF receptor subtypes. 3. Such information will be useful in developing a new generation of SRIF drugs that could be employed to treat metabolic diseases, disorders of the gut, cancer and abnormalities in the central nervous system such as epilepsy and Alzheimer's disease.
Cell Mol Neurobiol 1995 Dec
PMID:Somatostatin. 871 32

1. Regulation of pulsatile secretion of growth hormone (GH) relies on hypothalamic neuronal loops, major transmitters involved in their operation are growth hormone releasing hormone (GHRH) synthetized mostly in arcuate nucleus (ARC) neurons, and somatostatin (SRIH), synthetized both in hypothalamus periventricular (PVe) and ARC neurons. 2. Neurons synthetizing both peptides can inhibit each other in a reciprocal manner. Other neuropeptides synthetized in ARC neurons, such as galanin, or in ARC interneurons, such as neuropeptide Y (NPY), are able to modulate synthesis and release of GHRH and SRIH into the hypothalamohypophyseal portal system. 3. In addition, the hitherto uncharacterized endogenous ligand of the recently cloned growth hormone releasing peptide receptor, expressed mostly in the ARC, triggers GH release, presumably by actions on ARC interneurons. 4. Thyroid, gonadal, and adrenal steroid hormones also affect the GHRH-SRIH balance; a differential distribution of sex steroid receptors in the ARC and the PVe is likely to account for the different pattern of GH secretion in male and female animals. 5. Growth hormone itself is able to inhibit the amplitude of GH secretory episodes and to increase their frequency, by entering the brain (presumably by receptor-mediated internalization at the level of the choroid plexus) and acting subsequently on ARC neurons. 6. At the pituitary level, major neurotransmitters regulating GH cells act on receptors of the VIP/PACAP/GHRH family and of the somatostatin family, in particular, sst2 and sst3. Those are coupled to accumulation of cAMP as a second messenger. 7. In addition, patch-clamp experiments and measurement of intracellular Ca2+ indicate that GH cells present characteristic, GHRH-dependent, but self-maintained Ca2+ spikes and [Ca2+]i transients, which reflect adaptive mechanisms to constraints of episodic release. 8. Recent data on transcription factors affecting GH gene expression and somatotrope differentiation are also summarized. 9. Regulation and differentiation of somatotropes also depend upon paracrine processes within the pituitary itself and involve growth factors and several neuropeptides, for instance, vasoactive intestinal peptide, angiotensin 2, endothelin, and activin. 10. Finally, characteristic changes occur in the GH secretory pattern under discrete, pathological conditions, such as abnormal growth and dwarfism, diabetes, and acromegaly, as well as during inflammatory processes.
Cell Mol Neurobiol 1998 Feb
PMID:Hypothalamic and hypophyseal regulation of growth hormone secretion. 952 32

Sodium and water retention are common in acromegaly and upon GH administration. The underlying mechanisms, however, have not been clearly characterized as yet. Therefore, the aim of this study was to examine possible alterations of atrial natriuretic peptide (ANP), an endogenous regulator of volume homeostasis, in response to chronic elevated GH. We used GH-transgenic mice (GH-TM) as a model for chronic hypersomatotropinemia and moreover investigated 7 and 27 week old animals, respectively, in order to discriminate between short and long term effects of GH overexpression. Hematocrit values were reduced in GH-TM compared to control animals and it is known that plasma volume is increased in these animals. Structural lesions of the kidney were found in the GH-TM, however, in the animals studied there were no signs of renal insufficiency as evidenced by serum creatinine and urea levels. The serum concentration of immunoreactive ANP (IR-ANP) determined by RIA was significantly (P < 0.005) elevated in the young GH-TM as compared to control littermates (81.7+/-13.3 vs. 50.9+/-10.8 fmol/ml). The increase in serum IR-ANP of 27 week old GH-TM, however did not reach the level of significance (57.13+/-16.3 vs. 50.25+/-16.4 fmol/ml). Serum samples of control mice as well as of the 7 week old animals mainly contained ANP 99-126, known to be the circulating form of ANP. In contrast, serum of 27 week old GH-TM predominantly showed the cardiac storage form of ANP, ANP 1-126. Cardiac expression of ANP was quantified by Northern blot analysis. mRNA coding for ANP was found 1.2- and 2-fold increased in the atria of 7 and 27 week old GH-TM, respectively. In parallel, a 2.2-fold (7 week) and 2-fold (27 week) increase of IR-ANP was observed in transgenic atria compared to tissue of control animals. In contrast, no significant difference of ANP mRNA expression or of content of IR-ANP was observed in the ventricles of both groups of animals. In conclusion, GH-TM show various alterations in their ANP status suggesting an influence of the peptide on the effect of GH in fluid retention.
Mol Cell Endocrinol 1998 Sep 25
PMID:Effect of chronic GH overproduction on cardiac ANP expression and circulating ANP levels. 986 31

GNAS1, which is located in the chromosomal region 20q13.3, gives rise to maternally, paternally or bi-allelically expressed transcripts including the one that encodes the alpha subunit of the stimulatory G protein. Numerous naturally occurring mutations of this gene have been identified in several different disorders including certain forms of pseudohypoparathyroidism, progressive osseous heteroplasia, McCune-Albright syndrome and acromegaly. Polymorphic markers currently employed in the genetic evaluation of these disorders frequently prove uninformative owing to a low heterozygosity value associated with each marker. We searched for potentially polymorphic tandem repeats close to the GNAS1 locus, and identified two new, highly polymorphic loci that are located within a;48-kb region immediately downstream of this gene. These new microsatellite markers, with their high polymorphism information content, may prove to be useful in genetic studies related to GNAS1 as well as to other genes located in the flanking genomic region.
Mol Cell Probes 2000 Aug
PMID:Identification and characterization of two new, highly polymorphic loci adjacent to GNAS1 on chromosome 20q13.3. 1097 Jul 31

The MtT/S somatotroph cell line should be a growth hormone-releasing hormone (GHRH)-responsive model system for the study of physiological control of growth hormone (GH) transcription because GH secretion from these cells is stimulated by GHRH. To examine the GH transcriptional activity of these cells, endogenous GH mRNA levels were measured using a ribonuclease protection assay following treatment under a variety of hormonal conditions. While omission of serum led to reduction of GH mRNA to 22% of control levels by 2 days and to 8% by 5 days (P<0.05 for both), GH mRNA levels were maintained at control values in serum-free medium containing 5 nM dexamethasone and 30 pM triiodothyronine (TDM). However, the addition of 10 nM GHRH under any treatment condition did not significantly alter GH mRNA levels. Characterization of the MtT/S cells showed that GHRH-receptor (GHRH-R) mRNA was detectable by reverse transcription-polymerase chain reaction (RT-PCR) amplification. Measurement of extracellular cAMP showed that the MtT/S cells have basal levels of > or =20 nmol/10(6) cells per h in both serum-containing and serum-free media, and that GHRH had no effect on cAMP levels, suggesting constitutive activation. To rule out the possibility of autocrine stimulation by GHRH produced endogenously, GHRH mRNA was not detectable in MtT/S cells using RT-PCR amplification. The stimulatory G-protein alpha subunit, mutations of which are known to activate adenylate cyclase constitutively in acromegaly, was sequenced but found not to differ from normal pituitary in the regions most commonly mutated. Finally, treatment with 10 microM forskolin, to directly activate adenylate cyclase, increased GH mRNA to 140% of controls in TDM, and to 163% in serum-free medium after 2 days, and to 166% in TDM-treated cells and 174% in serum-free culture after 5 days (all P<0.05). Taken together, these data indicate that although MtT/S cells express the GHRH-R, GHRH cannot stimulate adenylate cyclase to increase GH transcription due to constitutive elevation of cAMP levels, by a means that may be similar to that in cases of acromegaly not caused by oncogenic gsp mutations.
Mol Cell Endocrinol 2001 Feb 14
PMID:GH mRNA levels are elevated by forskolin but not GH releasing hormone in GHRH receptor-expressing MtT/S somatotroph cell line. 1116 46

Serum levels of growth hormone (GH) can vary. Low levels of GH can result in a dwarf phenotype and have been positively correlated with an increased life expectancy. High levels of GH can lead to gigantism or a clinical syndrome termed acromegaly and has been implicated in diabetic eye and kidney damage. Additionally the GH/IGF-1 system has been postulated as a risk factor for several types of cancers. Thus both elevated and suppressed circulating levels of GH can have pronounced physiological effects. More than a decade ago the first drug of a new class, a GH antagonist, was discovered. This molecule is now being tested for its ability to combat the effects of high circulating levels of GH. Here, we discuss some of the detrimental actions of GH, and how a GH antagonist can be used to combat these effects.
Trends Mol Med 2001 Mar
PMID:Biological effects of growth hormone and its antagonist. 1128 84

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