UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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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.
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PMID:Hypothalamic and hypophyseal regulation of growth hormone secretion. 952 32

Pituitary growth hormone (GH) is essential for postnatal growth in animals. GH exerts its actions by direct effect on target organs and by stimulating the production of insulin-like growth factor I (IGF-I). At the tissue level, the pleiotropic actions of GH result from the interaction of GH with a specific cell surface receptor, the GH receptor (GHR). The GHR belongs to the hematopoietic receptor superfamily. The human GHR is the product of a single gene located on chromosome 5p13.1-p12 and spans at least 87 kb. Transcripts from this gene are characterized by the presence of disparate 5' untranslated exons. In the liver at least eight different GHR 5' untranslated regions (UTRs) have been described. This heterogeneity in the 5' UTR most likely results from the splicing of the various exon 1 fragments to a common splice site located 11 bp upstream of the initiating ATG. Heterogeneity in the 5' UTR sequences of the GHR transcripts indicates that transcriptional control of the locus is complex. GHR gene expression is minimal to absent in the fetus, with the postnatal increase in expression in the liver being maximal during pregnancy. GHR gene expression is also regulated by factors such as nutritional intake, GH, steroid hormones, and diabetes mellitus. Available information about the molecular mechanisms regulating expression of the GHR gene is discussed. Thus the GHR gene presents a picture of multiple 5' untranslated exons under the control of multiple promoters. The use of alternate promoters for initiation of transcription in conjunction with differential splicing allows for exquisite regulation of gene expression. This schema is appropriate for a protein that is essential to many of the physiological processes that are crucial for the survival and well-being of the organism.
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PMID:Regulation of growth hormone receptor gene expression. 963 92

In children and adolescents with type 1 diabetes, we have reported an association between duration of puberty and the prevalence of nephromegaly and microalbuminuria (MA), which are early markers of diabetic nephropathy. Growth hormone (GH), IGF-I, testosterone, and prorenin are potential mediators of this effect. This study examined the relationship of these hormonal factors to kidney volume (KV) and MA in 155 subjects (78 males, age 13.2 +/- 3.5 years [mean +/- SD]) with similar diabetes duration (6.83 +/- 1.6 years) but varying pubertal experience (0-10 years). KV (by ultrasound), plasma IGF-I, testosterone, prorenin, and NaLi countertransport, and urinary albumin, urinary GH, and urinary IGF-I from three 24-h collections were measured. Multiple regression analysis showed that BSA (P < 0.0001) and urinary IGF-I (P = 0.001) were significantly associated with KV. MA subjects (albumin excretion rate 15-200 microg/min) had higher urinary IGF-I (P = 0.005) and urinary GH (P = 0.05) compared with normoalbuminuric subjects. Only 9% of the variance in urinary IGF-I could be attributed to plasma IGF-I (r = 0.30, P < 0.0001). Testosterone and prorenin were not associated with MA, but they were associated with KV in univariate analyses. The strong association of urinary IGF-I with KV, a marker for glomerular hypertrophy, and of both urinary IGF-I and urinary GH with MA suggests a role for these growth factors in the development of human diabetic nephropathy. Together, these data support animal studies that have shown that renal GH and IGF-I may contribute significantly to the pathogenesis of early diabetic nephropathy.
Diabetes 1998 Aug
PMID:Contribution of growth hormone and IGF-I to early diabetic nephropathy in type 1 diabetes. 970 37

Growth hormone (GH) and IGFs have a long and distinguished history in diabetes, with possible participation in the development of renal complications. To investigate the effect of a newly developed GH receptor (GHR) antagonist (G120K-PEG) on renal/glomerular hypertrophy and urinary albumin excretion (UAE), streptozotocin-induced diabetic and nondiabetic mice were injected with G120K-PEG every 2nd day for 28 days. Placebo-treated diabetic and nondiabetic animals were used as reference groups. Placebo-treated diabetic animals were characterized by growth retardation, hyperphagia, hyperglycemia, increased serum GH levels, reduced serum IGF-I, IGF-binding protein (IGFBP)-3, and liver IGF-I levels, increased kidney IGF-I, renal/glomerular hypertrophy, and increased UAE when compared with nondiabetic animals. No differences were seen between the two diabetic groups with respect to body weight, food intake, blood glucose, serum GH, IGF-I, and IGFBP-3 levels or hepatic IGF-I levels. Kidney IGF-I, kidney weight, and glomerular volume were normalized, while the rise in UAE was partially attenuated in the G120K-PEG-treated diabetic animals. No effect of G120K-PEG treatment on any of the parameters mentioned above was seen in nondiabetic animals. In conclusion, administration of a GHR antagonist in diabetic mice has renal effects without affecting metabolic control and circulating levels of GH, IGF-I, or IGFBP-3, thus indicating that the effect of G120K-PEG may be mediated through a direct inhibitory effect on renal IGF-I through the renal GHR. The present study suggests that specific GHR blockade may present a new concept in the treatment of diabetic kidney disease.
Diabetes 1999 Feb
PMID:Inhibitory effect of a growth hormone receptor antagonist (G120K-PEG) on renal enlargement, glomerular hypertrophy, and urinary albumin excretion in experimental diabetes in mice. 1033 17

Growth hormone (GH) secretion in the elderly is generally diminished although there are marked individual differences ranging from normal GH secretion and normal levels of insulin-like growth factor (IGF)-I through low GH and subnormal IGF-I. It is assumed that the reduced central cholinergic activity leading to unrestrained somatostatin release leads to impaired GH secretion. The somatopause, if it occurs at all, is, in contrast to the menopause, a subtly developing physiological event. The menopause often causes severe symptoms that justify hormone replacement therapy, but the somatopause is a physiological event at the end of the lifespan with no acute symptoms that can be attributed to GH deficiency with certainty. Whether the non-specific symptoms of old age, i.e. truncal obesity, muscle atrophy, decreasing energy, and mental disorders, can be--even partially--blamed on decreased GH secretion is unclear. Thus, GH therapy in elderly patients, in the absence of pituitary disease cannot be recommended. In addition, the following has to be considered: 1) GH has to be given by subcutaneous injection, which may be technically difficult in elderly patients. 2) It is difficult to find the right individual dosage of GH since elderly patients may show increased sensitivity to GH therapy (compared with children) or may be GH-resistant. 3) Manifestation of diabetes mellitus may be enhanced in elderly patients. 4) The elevation of IGF-I levels may enhance the progression of malignant disease; it has been shown that the concentration of IGF-I in the circulation correlates to the frequency of prostatic cancer. Furthermore, acromegalic patients have a higher frequency of colonic polyps and gastrointestinal malignancies. 5) Even if problems such as dosage, mode of application and the questions of safety are resolved, the present costs of GH therapy will not allow to advocate GH treatment of all elderly patients with low levels of IGF-I. However, since some patients seem to benefit from GH therapy in senescence, further studies are needed. There may be a subset of elderly patients in whom GH treatment is useful. However, unless these patients are included in a study protocol, GH treatment should not be given to elderly patients in the absence of pituitary disease.
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PMID:The somatopause is no indication for growth hormone therapy. 1044 83

The diagnosis of entero-neuropancreatic tumours different from Zollinger-Ellison syndrome and carcinoid syndrome require an high index of suspicion and even when they are associated to virulent syndromes such as VIPoma or insulinoma syndrome the mean delay in diagnosis is of 4 years. Symptomatic hypoglycaemia due to inappropriate insulin release from insulinoma and watery diarrhoea leading to dehydration caused by elevated circulant vaso-intestinal peptide levels are present in the 90% and 100% of the patients at presentation of the respective syndrome. Somatostatinoma syndrome has a far more subtle presentation and it tends to present much later during the disease course. The diagnosis is based on the presence of gallstones, diabetes, weight loss, diarrhoea and steatorrhoea. Growth hormone releasing factor neuroendocrine tumours (GRFoma) present with acromegaly and account for less than 2% of the acromegalic patients in which the growth hormone is from an ectopic source located in the pancreas. The Cushing's syndrome diagnosis due to rare ectopic neuroendocrine tumour adrenocorticotropic hormone secretion can be made only with selective angiography, whereas non-functional and pancreatic polypeptide producing neuroendocrine tumours (PPoma) present without any symptoms. Finally, multiple endocrine neoplasia type one occurs more commonly with somatostatinoma or GRFoma, conversely patients with multiple endocrine neoplasia type one can develop insulinoma (20%) or PPoma (60%).
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PMID:Diagnosis of non-Zollinger-Ellison syndrome, non-carcinoid syndrome, enteropancreatic neuroendocrine tumours. 1060 21

Diabetes is a common complication encountered during pregnancy. Earlier studies indicated that diabetic placentas bear morphological alterations consistent with modified placental differentiation, including alterations in the villous cellular content, structure, and total surface. Limited data associating the diabetic status with the expression of terminal placental differentiation markers are available. The human growth hormone/chorionic somatomammotropin (hGH/CS) family consists of five genes, one of which (GH-N) is expressed efficiently in pituitary while the other four (CS-A, B, L, and hGH-V) are expressed in placenta and represent ultimate placental differentiation markers. We developed and applied a sensitive RT-PCR method coupled with diagnostic restriction digestion to determine the relative levels of the hGH/CS family in normal pregnancies and examine whether their mRNA expression pattern is altered in pregnancies complicated by diabetes. We show that relative hCS-L content changes during placental development. Specifically, normal term placentas express higher relative levels of hCS-L, lower relative hGH-V levels and a 70-fold lower hGH-V/CS-L mRNA ratio compared to early placentas. Also, many term placentas from diabetic pregnancies express lower relative levels of hCS-L mRNA and a much higher hGH-V/CS-L mRNA ratio compared to normal term placenta, resembling more an early placenta pattern of expression. Thus, our study suggests that the expression of terminal placental differentiation markers, such as the hGH/CS genes, is altered in term placentas from these diabetics reflecting either impaired placental differentiation or post-differentiation impairment of normal placental function.
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PMID:Detection of placental growth hormone variant and chorionic somatomammotropin-L RNA expression in normal and diabetic pregnancy by reverse transcriptase-polymerase chain reaction. 1061 4

Growth hormone (GH) secretion is altered in poorly controlled diabetic animals. However, modifications in the hypothalamic neuropeptides that control GH secretion, somatostatin and GH-releasing hormone (GHRH), as well as changes in the sensitivity of the hypothalamus and pituitary to the feedback effects of GH, are less clear. We have used RNase protection assays and in-situ hybridization to address whether the mRNA expression of GH, somatostatin and GHRH, as well as of the GH receptor (GHR) in the hypothalamus and anterior pituitary, are altered in streptozotocin-induced diabetic rats. After induction of diabetes, rats were treated with insulin twice daily for 3 weeks to obtain either poorly controlled (mean plasma glucose >300 mg/dl) or well-controlled diabetic rats. Although no significant change in pituitary GH mRNA expression was found, the hypothalamic expression of GHRH and somatostatin mRNA was reduced in poorly-controlled diabetic rats and returned to control values with normalisation of plasma glucose concentrations (P<0.0001 and P<0.002, respectively). Somatostatin mRNA expression was reduced only in the central portion of the periventricular nucleus, with no change being seen in the other areas of the periventricular nucleus or in the arcuate, suprachiasmatic or paraventricular nuclei. A significant decline in GHRH mRNA expression was observed in both the arcuate nucleus and ventromedial hypothalamus. Anterior pituitary GHR mRNA expression was significantly reduced in both well and poorly-controlled diabetic rats, while there was no change in the hypothalamus. To examine whether the evolution time of the diabetes influences these parameters, in a subsequent experiment, diabetic rats received no insulin for 2 months. A significant decline in GHRH and somatostatin mRNA expression was also observed in these rats. In addition, pituitary GH mRNA expression declined significantly in long-term diabetic rats. These results demonstrate that: (1) the expression of both GHRH and somatostatin declines specifically in anatomical areas involved in anterior pituitary hormone control; (2) GHR mRNA expression is decreased in the pituitary of diabetic rats, but not in the hypothalamus, and does not return to control values with normalisation of mean blood glucose concentrations; and (3) the evolution time of the diabetes is important for detecting some changes, including the decrease in pituitary GH mRNA expression.
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PMID:Anatomically specific changes in the expression of somatostatin, growth hormone-releasing hormone and growth hormone receptor mRNA in diabetic rats. 1069 41

Growth hormone (GH) may have a role in the development of diabetic nephropathy. The effect of experimental diabetes on renal expression of the growth hormone receptor gene products, including the receptor itself (GHR) and its binding protein (GHBP) was examined. Adult female rats received i.v. streptozotocin and were killed at 7, 30, 90 and 180 days after the induction of diabetes. Diabetic animals had a pronounced increase in kidney weight and progressive albuminuria. In renal cortex, no change was seen in GHR mRNA levels throughout the observation period of 6 months, while a significant increase in cortical GHBP mRNA levels was observed after 1 month of diabetes and sustained for the rest of the study period. Immunohistochemical analysis of kidney sections revealed a stronger staining for GHBP at the cortical and inner medullary areas in the diabetic animals. These data indicate that although the GHR and GHBP mRNAs originate from the same gene, their renal levels are differentially regulated during the development of experimental diabetic kidney disease, suggesting a functional role for GHBP.
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PMID:Differential expression of renal growth hormone receptor and its binding protein in experimental diabetes mellitus. 1099 Apr 43

Pegvisomant is a mutated human growth hormone molecule, which binds to the growth hormone receptor. This binding, however, does not lead to signal transduction. Therefore, in high concentrations pegvisomant acts as a growth hormone receptor antagonist. In a short term study (3 months) pegvisomant was shown to be an effective treatment for acromegaly. On theoretical grounds decreasing the biological effects of growth hormone in patients with diabetes mellitus could have a favourable impact on the severity of the secondary complications associated with this disease. Animal models for diabetic retino- and nephropathy are in accordance with this concept. Human data are lacking but clinical studies investigating the effect of pegvisomant in diabetes mellitus are in preparation. Growth hormone, either directly or via its downstream effector insulin-like growth factor-I (IGF-I) has been implicated as an important factor in the growth of malignant tumours. Animal studies in which human colon and breast cancer models were used showed that pegvisomant can powerfully decrease tumour growth. Studies in cancer patients have not yet started.
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PMID:[Growth hormone receptor antagonists: potential indications]. 1122 59

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