Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The response of fat tissue to GH or insulin-like growth factor I (IGF-I) differs between humans with hypopituitarism and those with exogenous obesity; the effects of combined GH and IGF-I administration have not been compared in these two situations. In GH-deficient dwarf rats (who have a primary GH deficiency), the excessive fat deposition induced by a high fat diet is completely reversed by combined infusion of GH and IGF-I. Whether the same phenomenon would be observed in genetically obese Zucker rats (in whom, as in obese humans, the decrease in GH secretion is secondary to the obese state) remained to be determined. Growing (6-week-old) female obese Zucker rats received a continuous sc infusion of vehicle, recombinant human GH, recombinant human IGF-I, or GH plus IGF-I for 14 days (3 mg/kg x day for both GH and IGF-I). Combined GH and IGF-I stimulated body weight gain and in naso-anal length to the same extent as IGF-I alone, whereas GH alone was less potent. Because all treatments stimulated weight linear growth proportionately, the progression of obesity was similar in treated and control animals. However, GH plus IGF-I (but not either agent alone) induced a 25% decrease in the relative weight of inguinal fat. GH and IGF-I exerted distinct effects on the relative weights of liver, kidney, and spleen and on the circulating levels of IGF-I and IGF-binding protein-3. Circulating glucose and insulin levels did not change in any group. In summary, GH plus IGF-I infusions decrease the relative weight of inguinal fat in Zucker rats as in obese GH-deficient dwarf rats; however, this effect is of more modest magnitude despite the use of a 2- to 3-fold higher dose and is limited to the inguinal site. Thus, GH plus IGF-I infusions did not influence the obesity index in Zucker rats. Inasmuch as Zucker rats are a better model of childhood-onset obesity than dwarf rats fed a high fat diet, the present results do not appear promising for extrapolation to clinical studies in children. The mechanisms by which the primary vs. secondary nature of the decreased GH secretion influences the effect of GH plus IGF-I on obesity remain to be determined.
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PMID:Effects of 14-day infusions of growth hormone and/or insulin-like growth factor I on the obesity of growing Zucker rats. 877 Sep

In obesity, there is a markedly decreased GH secretion. The diagnosis of GH deficiency (GHD) in adults is based on peak GH responses to stimulation tests. In the severely obese, peak GH levels after pharmacological stimulation are often in the range that is observed in hypopituitary patients. To distinguish obese subjects from GHD patients, it will be necessary to demonstrate that reduced GH responsiveness to a given test is reversible in the former, but not in the latter, group. Recent studies have shown that reduction of plasma free fatty acids (FFA) with acipimox in obese patients restores their somatotrope responsiveness. There are no data evaluating GH responsiveness to acipimox plus GHRH in obese adults with hypopituitarism. The aim of the present study was to evaluate the effect of acute pharmacological reduction of plasma FFA on GHRH-mediated GH secretion in obese normal subjects and obese adults with hypopituitarism. Eight obese patients with a body mass index of 34.2+/-1.2; eight obese adults with hypopituitarism, with a body mass index of 35.5+/-1.9; and six control subjects were studied. All the patients showed an impaired response to an insulin-tolerance test (0.15 U/kg, i.v.), with a peak GH secretion of less than 3 microg/L. Two tests were carried out. On one day, they were given GHRH (100 microg, i.v., 0 min), preceded by placebo; and blood samples were taken every 15 min for 60 min. On the second day, they were given GHRH (100 microg, i.v., 0 min), preceded by acipimox (250 mg, orally, at -270 min and -60 min); and blood samples were taken every 15 min for 60 min. The administration of acipimox induced a FFA reduction during the entire test. Normal control subjects had a mean peak (microg/L) of 23.8+/-4.8 after GHRH-induced GH secretion; previous acipimox administration increased GHRH-induced GH secretion, with a mean peak of 54.7+/-14.5. In obese patients, GHRH-induced GH secretion was markedly reduced, with a mean peak (microg/L) of 3.9+/-1; previous administration of acipimox markedly increased GHRH-mediated GH secretion, with a mean peak of 16.0+/-3.2 (P < 0.05). In obese adults with hypopituitarism, GHRH-induced GH secretion was markedly reduced, with a mean peak (microg/L) of 2+/-0.7; previous acipimox administration did not significantly modify GHRH-mediated GH secretion, with a mean peak of 3.3+/-1.1 (P < 0.05). The GH response of obese patients and obese adults with hypopituitarism was similar after GHRH alone. In contrast, the GH response after GHRH plus acipimox, was markedly decreased in obese adults with hypopituitarism (mean peak, 3.3+/-1.1), compared with obese patients (mean peak, 16.0+/-3.2) (P < 0.05) and control subjects (mean peak, 54.7+/-14.5) (P < 0.01). In conclusion, GH secretion, after GHRH-plus-acipimox administration, is reduced in obese adults with hypopituitarism patients, when compared with obese normal patients. Testing with GHRH plus acipimox is safe and is free from side effects and could be used for the diagnosis of GHD in adults.
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PMID:Effect of acute pharmacological reduction of plasma free fatty acids on growth hormone (GH) releasing hormone-induced GH secretion in obese adults with and without hypopituitarism. 985 76

Primary empty sella syndrome (ESS) is an anatomo-radiological picture characterized by the presence of an arachnoid herniation filled with liquor that compresses the pituitary against the sellar wall. ESS occurs particularly in obese, hypertensive, cephalgic women, it is often asymptomatic but it may be associated with ophthalmologic, neurologic and sometime non-characterizing endocrine disorders. We report here 71 cases of primary ESS observed and assessed during the last fourteen years. The following endocrinological diagnostic procedures were carried out: hormonal (RIA) basal profile: FT3, FT4, TSH, PRL, ACTH, FSH, LH, 8.00 a.m. and p.m. cortisolemia, Aldo, PRA, DHEA-S, FTe, E2, P, PTH, CT, and calcemia and phosphoremia; provocative tests: TRH, GnRH, insulin hypoglycemia, etc.; inhibition tests: "overnight" and high dose dexamethasone. Clinical, radiological (skull radiographs, CT and/or MRI) and ophthalmologic (fundus, visual fields) assessment were made. We found principally cephalgia (52/71: 73.2%), hypertension (42/71: 59.1%), obesity (47/71: 66.1%). But we found especially mental disorders (57/71: 80.2%), in our knowledge not previously reported in the literature, as anxiety or dysthymic disorders with behavioural disturbances (chiefly oral compulsion). We found endocrinopathies in 36/71 (50.7%), isolated or coexisting in some patients: hyperPRL (14%), hypopituitarism (10.4%), hypogonadism (7%), diabetes insipidus (2.8%), hyperACTH (1.4%), hypoGH (15.4%), pituitary adenomas (8.4%). Several hypothalamic illness show a clinical picture including mental disorders and obesity. The Authors hypothesize that the ESS may be a "new" hypothalamic syndrome (compression/stretching on hypophysis and/or hypophyseal stalk by arachnoidocele; disorder of some hormones and neurotransmitters as leptin, neuropeptide Y, orexins, POMC-derived peptides, etc).
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PMID:[Primary empty sella syndrome. Observations on 71 cases]. 1020 96

GH/IGF-I axis activity changes have been reported both in anorexia nervosa (AN) and in obesity (OB). AN is characterized by GH hypersecretion and very low IGF-I levels as a result of undernutrition and acquired peripheral GH resistance. On the other hand OB is a GH hyposecretory state but IGF-I levels are generally preserved. The activity of GH/IGF-I axis in AN and OB has never been directly compared with that of other pathophysiological conditions such as hypopituitarism and critical illness in which a reduction of both GH and IGF-I secretion has been demonstrated. To this aim, we evaluated IGF-I levels and both basal and GHRH (1 microgram/kg) IV-induced GH secretion in 20 female patients with anorexia nervosa (mean age: 19.1 +/- 0.8 years) and in 15 female and 5 male patients with simple obesity (mean age: 39.0 +/- 3.0 years). We then compared the results with those of hypopituitaric patients with severe GH deficiency (GHD), including 10 female and 10 patients (mean age: 32.0 +/- 2.1 years), and with 4 female and 7 male patients with critical illness (CRI) following multiple trauma 72 hours after ICU admission (mean age: 59.2 +/- 1.2 years). Twenty-six normal subjects (NS) including 14 female and 12 male patients (mean age: 37.8 +/- 3.7 years) were studied as controls. Basal IGF-I levels in AN patients (93.5 +/- 11 micrograms/L) were lower (p < 0.001) than in the NS (201.7 +/- 13.5 micrograms/L) and OB (194.5 +/- 28.6 micrograms/L), which, in turn, were similar. IGF-I levels in AN patients were lower than in CRI patients (162.8 +/- 17.4 micrograms/L) and higher than in GHD patients (76.7 +/- 13.5 micrograms/L) but these differences did not attain statistical significance. Basal GH levels in AN patients (7.6 +/- 2.5 micrograms/L) were higher (p < 0.001) than in NS (1.8 +/- 0.3 micrograms/L), OB patients (1.1 +/- 0.5 micrograms/L), CRI patients (1.8 +/- 0.5 micrograms/L) and GHD patients (0.3 +/- 0.1 microgram/L), which were the lowest (p < 0.01). The GHRH-induced GH rise in AN patients (AUC: 2032.9 +/- 253.5 micrograms/L/h) was three fold higher (p < 0.001) than in NS (662.1 +/- 80.3 micrograms/L). On the other hand in OB (332.4 +/- 74.7 micrograms/L/h) the GH response to GHRH was similar to that in CRI (199.6 +/- 98.8 micrograms/L/h); both were clearly higher (p < 0.01) than in GHD patients (25.1 +/- 5.2 micrograms/L/h) but lower (p < 0.01) than in NS. These findings demonstrate that in AN patients, in spite of a clear increase of both basal and GHRH-induced GH secretion, IGF-I synthesis and release are as markedly impaired as in patients with panhypopituitarism and severe GHD. On the other hand in OB and in CRI, IGF-I synthesis and release are preserved despite marked impairment to GHRH-induced GH secretion. These results reinforce the major role of nutrition in conditioning the activity of GH/IGF-I axis in different patho-physiological states.
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PMID:The activity of GH/IGF-I axis in anorexia nervosa and in obesity: a comparison with normal subjects and patients with hypopituitarism or critical illness. 1072 52

Growth hormone (GH) secretion declines progressively with aging, and many age-related changes resemble those of the adult GH deficiency (GHD) syndrome, including a decrease in lean body mass; an increase in body fat, especially in the visceral/abdominal compartment; adverse changes in lipoproteins; and a reduction in aerobic capacity. The increase in central obesity can further inhibit GH secretion. GH replacement is effective in reversing many of these changes in adult GHD, and GH is now FDA approved for treatment of adults with documented GHD or hypopituitarism, although there is still only limited experience with its long-term benefits, side effects, and risks. This early experience with GHD has led to speculation that replacing GH or stimulating its secretion may also be beneficial in normal aging, and to widespread off-label use of GH in this context; however, there are still very few well controlled studies of the effects and side effects of GH or GH secretagogues in aging. All published studies are of 6 months or shorter treatment periods. From this limited experience there is a consensus that GH has effects on body composition, but reports disagree on effects on psychological or physical functional performance. Older adults are much more susceptible to the dose-related side effects of GH, including peripheral edema, carpal tunnel syndrome, and a variable decrease in insulin sensitivity; and it is not known whether chronic GH treatment affects the risk of malignancy or has other long-term risks. Thus while short-term results are somewhat encouraging, the evidence on risks and clinically pertinent benefits is still lacking to support the use of GH in normal aging outside of clinical studies. In evaluating patients with clinical features suggesting GHD, which can be quite nonspecific, it is important to assess the presence or absence of true GH deficiency by the context (pituitary disease or its treatment, childhood GHD) and by appropriate GH stimulation tests before considering GH replacement.
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PMID:Age-related changes in growth hormone secretion: should the somatopause be treated? 1085 71

In addition to diabetes mellitus and obesity, acromegaly, Cushing's syndrome, hypopituitarism, hypo- and hyperthyroidism, hyperparathyroidism and polycystic ovary syndrome are associated with either increased mortality from, or increased prevalence of, cardiovascular disease (CVD). Recently, endothelial dysfunction has been identified as an early marker of CVD and has been shown to predict future coronary artery disease, before atherosclerotic changes appear in arteries. Thus, measurement of endothelial function might identify at-risk individuals early and be a useful means of assessing response to treatment aimed at reducing long-term morbidity and/or mortality from CVD. Such studies are being undertaken in hypopituitarism and other endocrinopathies, and are reviewed herein. Endothelial function in large vessels can be measured noninvasively by ultrasound measurement of flow-mediated endothelium-dependent dilation (FMD). Serum markers of endothelial function, such as von Willebrand's factor, thrombomodulin, E-selectin and intercellular adhesion molecule 1, could be increased and be useful for evaluation of treatment, because they correlate inversely with FMD.
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PMID:Endothelial dysfunction in endocrine disease. 1144 43

Neuroendocrine axes function as an ensemble of regulatory loci which communicate and maintain homeostasis via time-delayed blood-borne signals. The growth hormone (GH)-insulin-like growth factor I (IGF-I) feedback axis sustains a vividly pulsatile mode of interglandular signalling. Pulsatility is driven jointly by hypothalamic GH-releasing hormone (GHRH) and GH-releasing peptide (GHRP), and modulated by somatostatinergic restraint. Paradoxically, intermittent somatostatin inputs also facilitate somatotrope-cell responses to recurrent secretagogue stimuli, thereby amplifying pulsatile GH secretion. A concurrent low basal (8-12% of normal total) rate of GH release is controlled positively by GHRH and GHRP and negatively by somatostatin. Sex-steroid hormones (such as oestradiol and aromatizable androgen) and normal female and male puberty augment GH secretory-burst mass 1.8- to 3.5-fold, whereas ageing, relative obesity, physical inactivity, hypogonadism, and hypopituitarism mute the amplitude/mass of pulsatile GH output. An abrupt rise in circulating GH concentration stimulates rapid internalization of the GH receptor in peripheral target tissues, and evokes second-messenger nuclear signalling via the STAT 5b pathway. Discrete GH peaks stimulate linear (skeletal) growth and drive muscle IGF-I gene expression more effectually than basal (time-invariant) GH exposure. A brief pulse of GH can saturate the plasma GH-binding protein system and achieve prolonged plasma GH concentrations by convolution with peripheral distribution and clearance mechanisms. A single burst of GH secretion also feeds back after a short latency on central nervous system (CNS) regulatory centres via specific brain GH receptors to activate somatostatinergic and reciprocally subdue GHRH outflow. This autoregulatory loop probably contributes to the time-dependent physiologically pulsatile dynamics of the GH axis. More slowly varying systemic IGF-I concentrations may also damp GH secretory pulse amplitude by delayed negative-feedback actions. According to this simplified construct, GH pulsatility emerges due to time-ordered multivalent interfaces among GHRH/GHRP feedforward and somatostatin, GH and IGF-I feedback signals. Resultant GH pulses trigger tissue-specific gene expression, thereby promoting skeletal and muscular growth, metabolic and body compositional adaptations, and CNS reactions that jointly maintain health and homeostasis.
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PMID:Neurophysiological regulation and target-tissue impact of the pulsatile mode of growth hormone secretion in the human. 1152 85

Central nervous system (CNS) involvement and, in particular, hypothalamic-pituitary involvement are well described features of Langerhans cell histiocytosis (LCH). The actual incidence of CNS-LCH disease is unknown and the natural history is poorly understood. Diabetes insipidus (DI) is reported to be the most common and well described manifestation of hypothalamic-pituitary involvement (up to 50%). Anterior pituitary dysfunction has been reported in up to 20% of patients with LCH, and occurs almost exclusively concurrently with DI. In the current paper we describe our experience with 7 patients (6 females and 1 male) in whom hypothalamicpituitary involvement was a major feature of LCH. Diagnosis was made in 4 patients during childhood or adolescence, and 3 patients were over 18 years old at the time of diagnosis. Our series exemplifies the wide spectrum of LCH-induced hypopituitarism, and demonstrates some unique features, including a higher incidence of CRH/ACTH deficiency compared to other reports (4/7 patients), and massive obesity in 2 of our patients. Endocrine function was not improved in any of our patients following medical treatment of LCH with chemotherapy and glucocorticoids. We conclude that pituitary-hypothalamic dysfunction is a common feature of LCH, and therefore all LCH patients should undergo a thorough endocrine evaluation periodically.
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PMID:Hypopituitarism in langerhans cell histiocytosis: seven cases and literature review. 1168 44

Patients with hypopituitarism have increased cardiovascular mortality. A high prevalence of conventional cardiovascular risk factors, including obesity, central fat distribution, insulin resistance, and dyslipidemia, have been described in these patients. The inflammatory markers C-reactive protein (CRP) and IL-6 are predictors of cardiovascular events, and high levels of CRP have been reported in men with hypopituitarism and GH deficiency. However, little is known about inflammatory cardiovascular risk markers in women with hypopituitarism. We therefore investigated whether inflammatory and traditional cardiovascular risk markers are elevated in women with hypopituitarism. Fifty-three women with hypopituitarism and 111 healthy control women were included in this cross-sectional study. Morning blood samples were drawn after an overnight fast. Serum was assayed for CRP, IL-6, glucose, insulin, IGF-I, triglycerides, total cholesterol, low density lipoprotein cholesterol, high density lipoprotein (HDL) cholesterol, lipoprotein(a), E2, total testosterone (total T) and free testosterone (free T), and dehydroepiandrosterone sulfate. IL-6 and CRP levels were higher in women with hypopituitarism than in healthy controls (P < 0.0001 for comparison between groups). In a multivariate model, CRP levels depended on hypopituitarism, body mass index (BMI), and estrogen use. There was an interaction between the effect of BMI and hypopituitarism on CRP levels, such that the importance of hypopituitarism in determining CRP levels disappeared at high BMIs. In a similar multivariate model, IL-6 levels depended on hypopituitarism and BMI. Total cholesterol, the total to HDL cholesterol ratio, and triglycerides were higher in hypopituitary patients, but only triglycerides and the total to HDL cholesterol ratio depended on hypopituitarism when controlling for BMI. There was no significant difference in lipoprotein(a) levels between hypopituitary women and control subjects. However, when controlling for estrogen use, lipoprotein(a) levels showed a trend toward being lower in the hypopituitary group (P = 0.075). In patients with hypopituitarism, CRP correlated negatively with IGF-I (r = -0.35; P = 0.010), total T (r = -0.42; P = 0.0020), and free T (r = -0.30; P = 0.031). Similarly, IL-6 correlated negatively with total T (r = -0.39; P = 0.0040) and androstenedione (r = -0.27; P = 0.048) in hypopituitary patients. In conclusion, hypopituitary women have increased levels of IL-6 and CRP, both of which are inflammatory markers of atherosclerosis. GH deficiency and androgen deficiency may contribute to these findings. Chronic inflammation may contribute to the high cardiovascular risk seen in this population.
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PMID:Inflammatory cardiovascular risk markers in women with hypopituitarism. 1210 75

In peripheral tissues, corticosteroid hormone action is determined, in part, through the activity of 11beta-hydroxysteroid dehydrogenases (11beta-HSD), two isozymes of which interconvert hormonally active cortisol (F) and inactive cortisone (E). 11beta-HSD type 2 (11beta-HSD2) inactivates F to E in the kidney, whilst 11beta-HSD type 1 (11beta-HSD1) principally performs the reverse reaction activating F from E in the liver and adipose tissue. Alteration in expression of these 11beta-HSD isozymes in peripheral tissues modifies corticosteroid action: loss of 11beta-HSD2 activity in the kidney results in cortisol-induced mineralocorticoid excess, and loss of hepatic 11beta-HSD1 activity improves insulin sensitivity through a reduction in cortisol-induced gluconeogenesis and hepatic glucose output. Conversely, overexpression of 11beta-HSD1 in omental adipose tissue can stimulate glucocorticoid-induced adipocyte differentiation which may lead to central obesity. Patients with hypopituitarism have many clinical features in common with patients with Cushing's syndrome--notably visceral obesity, insulin resistance, osteoporosis and increased vascular mortality. Our hypothesis was that many of these features may be explained by an effect of growth hormone (GH) on the 11beta-HSD isozymes. As assessed by urinary free cortisol/urinary free cortisone ratios and endorsed through in vitro studies, neither GH nor insulin-like growth factor (IGF)-I affect 11beta-HSD2 activity. Patients with acromegaly show a reduction in hepatic-derived metabolites of cortisol/cortisone - levels return to normal when GH concentrations are normalized. Conversely, patients with GH deficiency in the setting of hypopituitarism demonstrate an increased cortisol/cortisone metabolite ratio and reduction in circulating cortisol concentrations in patients on hydrocortisone replacement. Treatment with low-dose GH replacement reverses these abnormalities. These clinical data suggest that GH (and/or IGF-I) inhibits 11beta-HSD1 (i.e. E to F conversion) (parallel in vitro studies suggest that IGF-I and not GH inhibits 11beta-HSD1). These findings have important clinical ramifications. Firstly, the GH-mediated increase in cortisol metabolism (mediated via reduced E to F conversion) may precipitate adrenal insufficiency in hypopituitary patients with partial adrenocorticotropic hormone deficiency commencing GH therapy. Secondly, many of the phenotypic features of hypopituitarism can be explained by an alteration in 11beta-HSD1 activity: GH deficiency effectively increases cortisol production in key target tissues including liver and adipose tissue, promoting insulin resistance and visceral adiposity. Thirdly, the reported beneficial effects of GH on cardiovascular risk factors in patients with hypopituitarism may be an indirect effect via alterations in cortisol metabolism. Finally, the GH/IGF-I modulation of cortisol metabolism may underpin the pathogenesis of common diseases such as central obesity and idiopathic osteoporosis. Patients with central obesity but with no evidence of hypopituitarism have relative GH deficiency and it is exciting to speculate that low-dose GH treatment in this group, by inhibiting cortisol generation within omental fat, may offer a novel therapeutic approach.
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PMID:Growth hormone, insulin-like growth factor-I and the cortisol-cortisone shuttle. 1178 77


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