UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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Structural alterations of small resistance arteries in patients with essential hypertension (EH) are mostly characterized by inward eutrophic remodeling. However, we have observed the presence of hypertrophic remodeling in patients with renovascular hypertension, as well as in patients with noninsulin-dependent diabetes mellitus, suggesting a relevant effect of humoral growth factors on vascular structure. Growth hormone may stimulate in vitro proliferation of vascular smooth muscle cells. However, no data are presently available about small artery structure in acromegalic patients. Therefore, we have investigated the structure of subcutaneous small arteries in 12 normotensive (NT) subjects, in 12 EH subjects, and in 9 acromegalic patients (APs). All subjects underwent biopsy of the subcutaneous fat; then, small resistance arteries were dissected and mounted on a micromyograph. The normalized internal diameter, media thickness, media-to-lumen ratio, the media cross-sectional area together with remodeling, and growth indices were calculated. Demographic variables were similar in the three groups, except for blood pressure. The media-to-lumen ratio was significantly greater in EH and AP, compared with NT. No difference was observed between EH and AP. The media cross-sectional area was significantly greater in AP compared with EH and with NT. The calculation of remodeling and growth index suggests the presence of eutrophic remodeling in EH (growth index 0%) and of hypertrophic remodeling in AP (growth index 40%). In conclusion, our data suggest the presence of hypertrophic remodeling of subcutaneous small resistance arteries of AP, probably as a consequence of growth-stimulator properties of IGF-1.
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PMID:Acromegalic patients show the presence of hypertrophic remodeling of subcutaneous small resistance arteries. 1498 91

Pegvisomant is a pegylated analogue of growth hormone (GH) that functions as a growth hormone receptor antagonist. Clinical trials of its use in acromegaly commenced in 1997; the drug was approved in the US in March 2003 and in Europe in November 2003. In the same year, it was made available on prescription in several European countries, with further launches due in 2004. Pegvisomant is capable of normalising serum insulin-like growth factor-I concentrations (the chief mediator of disease activity in acromegaly) in 97% of patients with active acromegaly, and therapy is associated with a significant improvement in the symptoms and signs of GH excess. Disease control is achievable with pegvisomant in patients who are wholly or partially resistant or do not tolerate somatostatin analogues; preliminary data suggest that the drug may be particularly suitable for patients with acromegaly and co-existent diabetes mellitus.
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PMID:Pegvisomant: a novel pharmacotherapy for the treatment of acromegaly. 1500 35

Insulin-like growth factor-I (IGF-I) has endocrine, autocrine and paracrine properties. Receptors for IGF-I are present on virtually all cell types but are located mainly on cells of mesenchymal origin, such as fibroblasts, chondrocytes and osteoblasts. Growth hormone (GH)-dependent and GH-independent actions of IGF-I have been implicated in normal and abnormal bone growth, diabetes mellitus, malnutrition, cancer, thyroid disease and hematological diseases. The availability of recombinant human IGF-I (rhIGF-I) has led to new treatments for GH-resistant Laron dwarfism and certain diseases associated with severe insulin resistance. IGF-I has recently been investigated as a neurotrophic factor. Phase II efficacy trials with patients with neurological disease such as traumatic brain injury, myotonic dystrophy and amyotrophic lateral sclerosis have shown that rhIGF-I has efficacy on various outcome parameters. Treatment with rhIGF-I may result in reversible side effects of which increased heart rate, papilledema, ophthalmologic and intracranial hypertension, facial and generalized edema, and weight gain are noteworthy.
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PMID:Insulin-like growth factor-I: clinical studies. 1509 66

Several studies have demonstrated an association between low birth weight and impaired insulin sensitivity or even type 2 diabetes mellitus (DM2) in later life. Growth hormone (GH) is known to increase fasting and postprandial insulin levels. For that reason concern has been expressed regarding possible detrimental effects of GH therapy in children born SGA. In a Dutch trial the possible side effects of GH therapy on carbohydrate metabolism were assessed in short children born SGA after 6 years and at 6 months after discontinuation of GH therapy. This study included 79 prepubertal short children born SGA, participating in a multicenter double-blind, randomized, dose-response GH trial. Inclusion criteria were: 1) birth length SDS below -1.88, 2) age 3-11 years in boys and 3-9 years in girls, 3) height SDS < -1.88, 4) no spontaneous catch-up growth, and 5) an uncomplicated neonatal period. Mean (SD) value for age was 7.3 (2.1) years, birth length SDS -3.6, height SDS -3.0 (0.7) and BMI SDS -1.2 (1.3). All children were randomly assigned to either group A (n = 41) using 1 mg GH/m2/day or group B (n = 38) using 2 mg/m2/ d/ay (approximately 0.1 or 0.2 IU/kg/d, respectively). Standard oral glucose tolerance tests (OGTTs) were performed before and during 6 years of GH therapy and 6 months after discontinuation of GH therapy. Before GH therapy 8% of the children had impaired glucose tolerance (IGT) according to criteria of the WHO. After 6 years of GH therapy, IGT was found in 4% and after stopping GH in 10%. Mean fasting glucose increased significantly with 0.5 mMol/l after 1 year of GH therapy, without a further increase thereafter. GH therapy induced considerably higher fasting and glucose-stimulated insulin levels. None of the observed changes were different between the GH dosage groups. Children who remained prepubertal had similar glucose and insulin levels compared to children who entered puberty. HbA1c levels were always in the normal range and none of the children developed diabetes mellitus. After discontinuation of GH therapy the mean serum glucose levels remained normal and the mean serum insulin levels decreased significantly, to normal age reference values. Before the start of GH the mean systolic blood pressure was significantly higher compared to age-matched peers, whereas during GH therapy a significant decline in mean systolic blood pressure occurred, which remained similar after discontinuation of GH treatment. In conclusion, continuous, long-term GH therapy in short children born SGA has no adverse effects on glucose levels, even with GH dosages up to 2 mg/m2/day. However, as has been reported in other patient groups, GH induced higher fasting and glucose-stimulated insulin levels, indicating insulin resistance. After discontinuation of GH, serum insulin levels declined to normal age-matched reference levels. Since impaired insulin sensitivity and DM2 have been demonstrated in relatively young patients born SGA, long-term follow-up of children born SGA is advised, also after discontinuation of GH therapy.
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PMID:Small for gestational age (SGA): endocrine and metabolic consequences and effects of growth hormone treatment. 1513 8

Growth hormone (GH) deficiency decreases left ventricular (LV) contractility, induces LV chamber dilatation and promotes progression to congestive heart failure. It is, however, controversial, whether GH replacement therapy in addition to standard medical heart failure therapy should be considered as routine treatment in GH deficient patients with heart failure. In the present report of a 64-year-old GH deficient patient with heart failure, we demonstrate by using Doppler echocardiography, magnetic resonance imaging and 31P NMR spectroscopy that even a 12 month period of GH replacement therapy had no sustained effect on morphometric or functional parameters of LV performance nor on clinical signs or symptoms of heart failure. It is concluded that GH replacement therapy should currently not be regarded as standard heart failure therapy in patients with GH deficiency and should only be employed under careful monitoring including close follow-up in a standardized way.
Exp Clin Endocrinol Diabetes 2004 Oct
PMID:Failure of recombinant human growth hormone treatment to improve congestive heart failure in hypopituitarism. 1550 63

Growth hormone (GH) has been used to treat GH deficiency since the late 1950s, and recombinant GH has been available since 1985. GH is also approved to treat non-GH-deficient short stature, such as that seen in Turner syndrome, chronic renal insufficiency, Prader-Willi syndrome, children who are small for gestational age, and idiopathic short stature. There has been interest in using recombinant insulin-like growth factor I (IGF-I) to treat short stature, either alone or in combination with its binding protein, IGF binding protein (IGFBP)-3 (SomatoKine). IGF-I increases growth velocity in children with IGF deficiency, either as a result of growth hormone insensitivity syndrome (GHIS) or IGF-I gene deletion. However, there have been adverse events, particularly hypoglycemia, reported with administration of unbound IGF-I. In addition, the serum half-life of unbound IGF-I is shorter when administered to patients with GHIS, who have low serum concentrations of its primary binding protein IGFBP-3 than when administered to healthy individuals or to patients with an IGF-I gene deletion (who have normal levels of IGFBP-3). SomatoKine was developed to prolong the half-life and to counteract acute adverse events (particularly hypoglycemia) associated with IGF-I administration. SomatoKine appears to have a longer half-life in patients with GHIS than unbound IGF-I and fewer adverse events (including hypoglycemia) have been reported when administered to patients with diabetes.
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PMID:SomatoKine: is there a use in treating growth disorders? 1589 44

Growth hormone (GH) diminishes adipose tissue mass in vivo and decreases expression and activity of fatty acid synthase (FAS) in adipocytes. GH and prolactin (PRL) are potent activators of STAT5 and exert adipogenic and antiadipogenic effects in adipocytes. In this study, we demonstrate that GH and PRL decrease the mRNA and protein levels of FAS in 3T3-L1 adipocytes. We present evidence that indicates that FAS is repressed at the level of transcription. In addition, PRL responsiveness was shown to exist between -1,594 and -700 of the rat FAS promoter. Moreover, responsiveness to PRL was abolished with mutation of a site at position -908 to -893, which we have shown to bind STAT5A in a PRL-dependent manner. Taken together, these data strongly suggest that PRL directly represses expression of FAS in adipocytes through STAT5A binding to the -908 to -893 site. Furthermore, our results indicate that STAT5A has an antilipogenic function in adipocytes and may contribute to the regulation of energy balance.
Diabetes 2005 Jul
PMID:The regulation of fatty acid synthase by STAT5A. 1598 96

Growth hormone and prolactin are important growth factors for pancreatic beta-cells. The effects exerted by these hormones on proliferation and on insulin synthesis and secretion in beta-cells are largely mediated through the Janus kinase (JAK)/signal transducer and activator of transcription (STAT) signaling pathway. Suppressors of cytokine signaling (SOCS) proteins are specific inhibitors of the JAK/STAT pathway acting through a negative-feedback loop. To investigate in vivo effects of SOCS-3 in growth hormone (GH)/prolactin signaling in beta-cells we generated transgenic mice with beta-cell-specific overexpression of SOCS-3. The relative beta-cell proliferation and volume in the mice were measured by morphometry. Beta-cell volume of transgenic female mice was reduced by over 30% compared with beta-cell volume in wild-type female mice. Stimulation of transgenic islets in vitro with GH showed a reduced tyrosine phosphorylation of STAT-5 when compared with wild-type islets. Transduction of primary islet cultures with adenoviruses expressing various SOCS proteins followed by stimulation with GH or glucagon-like peptide-1 (GLP-1) revealed that SOCS-3 inhibited GH- but not GLP-1-mediated islet cell proliferation, indicating that the decreased beta-cell volume observed in female transgenic mice could be caused by an inhibition of GH-induced beta-cell proliferation by SOCS-3. In spite of the reduced beta-cell volume the transgenic female mice exhibited enhanced glucose tolerance compared with wild-type littermates following an oral glucose-tolerance test. Together these data suggest that SOCS-3 modulates cytokine signaling in pancreatic beta-cells and therefore potentially could be a candidate target for development of new treatment strategies for diabetes.
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PMID:Regulation of pancreatic beta-cell mass and proliferation by SOCS-3. 1621 5

Pegvisomant is a pegylated analog of growth that functions as a growth hormone receptor antagonist. The drug is capable of normalizing serum IGF-I concentrations (the chief mediator of disease activity in acromegaly) in 97% of patients, and therapy is associated with significant improvements in the symptoms and signs of GH excess. Biochemical control may be achieved with pegvisomant in patients wholly or partially resistant to somatostatin analogs, and there are emerging data to suggest that the drug may be particularly suitable for patients with acromegaly and co-existent diabetes mellitus.
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PMID:Treatment of pituitary tumors: pegvisomant. 1631 17

In children with type 1 diabetes (T1DM), altered adaptive responses to exercise (secretion of growth factors, inflammatory cytokines, and glucoregulatory mediators) may have potential implications in growth and development, early onset of disease complications, and incidence of hypoglycemia. We therefore measured a broad spectrum of exercise responses in 12 children with T1DM (seven males and five females) and 12 controls (six males / six females) aged 11-15 yr, during a 30-min exercise challenge @ 80% VO(2)max. Euglycemia was strictly controlled during exercise, and in diabetic patients a basal rate of i.v. insulin was allowed to maintain baseline insulin concentrations. Throughout the experiment, interleukin-6 (IL-6) concentrations (pg/mL) were markedly higher in T1DM vs. controls (preexercise: 5.0+/-1.3 vs. 1.9+/-0.6, p<0.02; end-exercise 5.3+/-1.2 vs. 2.7+/-1.0, p<0.05; 30-min postexercise: 8.2+/-2.2 vs. 3.9+/-0.8, p<0.05). A similar pattern was also observed with norepinephrine. Growth hormone (GH) concentration was similar in both groups at baseline and end-exercise, but in T1DM the exercise-induced GH remained significantly elevated 30 min after exercise (9.2+/-2.2 vs. 3.1+/-0.9 ng/L, p<0.01). The exercise-induced increase in glucagon elicited by exercise in controls was similar to that previously observed in healthy adults (10+/-3 pg/mL); however, it was significantly blunted in T1DM children (2+/-2 pg/mL, p<0.05). In conclusion, T1DM children displayed significant alterations in multiple aspects of their adaptive response to intense exercise.
Pediatr Diabetes 2006 Feb
PMID:Inflammatory cytokine, growth factor and counterregulatory responses to exercise in children with type 1 diabetes and healthy controls. 1648 70

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