UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
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The aim of our work was to study non-insulin-mediated glucose uptake (NIMGU), in the postabsorptive state, in several pathologies characterized by peripheral insulin resistance, namely, obesity (n = 10), NIDDM (n = 7), acromegaly (n = 7) and Cushing's disease (n = 6). These groups were compared with a group of 16 healthy subjects. To estimate peripheral insulin sensitivity (SI) and glucose effectiveness (SG), we used the minimal model of glucose metabolism. Although all of these pathologies showed severe insulin resistance (control: 6.44 +/- 2.63, obesity: 2.84 +/- 1.57, NIDDM: 1.71 +/- 0.77, acromegaly: 1.88 +/- 1.23, Cushing's disease: 1.87 +/- 0.66 x 10(-4) min-1 (microU/ml)-1, P < 0.01), fasting insulin-mediated glucose uptake (IMGU) did not differ significantly among the five groups, because reactive hyperinsulinaemia was present in all of these states. The contribution of NIMGU to whole-body glucose uptake did not differ significantly among the five groups (control: 77 +/- 8%; obesity: 77 +/- 9%; acromegaly: 82 +/- 8%; Cushing's disease: 83 +/- 8%; NIDDM: 84 +/- 7%). In conclusion, our data show that, in the postabsorptive period, non-insulin mediated glucose uptake is a major determinant of glucose disposal and is similar in the different pathologies studied; on the other hand, although absolute rates of basal insulin-mediated glucose uptake are reduced in insulin-resistant states, they did not achieve statistical value compared with control subjects because of compensatory hyperinsulinaemia.
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PMID:Non-insulin-mediated glucose uptake in several insulin-resistant states in the postabsortive period. 959 80

The pertinent literature on the prevalence, clinical manifestations and pathogenic mechanisms of sleep apnoea (SA) in endocrine diseases, namely acromegaly, Cushing syndrome, hypothyroidism and diabetes mellitus was reviewed. An increased prevalence is well documented in patients with active and treated acromegaly. While most authors report peripheral obstruction, due to hypertrophy of tongue and pharyngeal tissues, to be the cause of SA in acromegaly, some findings argue for a role of hormone-induced changes of central respiratory control. SA is also more common in hypothyroidism, especially when myxedema is present. The associated edema and myopathy appear to be of pathogenic importance. Thyroxin substitution is frequently effective for the treatment of SA but nCPAP can be necessary initially and in some patients even after remission of clinical signs of hypothyroidism. In Cushing disease and syndrome, parapharyngeal fat accumulation can cause SA, but no epidemiological information is available. In non insulin dependent diabetes (NIDDM), obesity is the common risk factor for both, nocturnal hypoxia and insulin resistance. In IDDM, the development of autonomic neuropathy may predispose to SA. Where treatment of the underlying endocrine disease is unable cure the associated SA, nCPAP is usually the treatment of first choice. More prospective studies are clearly needed to establish prevalences and resolve the controversies regarding pathogenesis.
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PMID:Sleep apnoea in endocrine diseases. 961 23

Growth hormone secretagogues (GHS) are synthetic, non-natural peptidyl and nonpeptidyl molecules with potent stimulatory effect on somatotrope secretion. They have no structural homology with growth hormone-releasing hormone (GHRH) and act via a specific receptor, which has now been cloned and is present at both the pituitary and hypothalamic level. This evidence strongly suggests the existence of a still unknown natural GHS-like ligand. Several data favour the hypothesis that GHS could counteract somatostatinergic activity at both the pituitary and hypothalamic level and/or, at least partially, via a GHRH-mediated mechanism. However, the possibility that they act via an unknown hypothalamic factor remains open. GH-releasing peptide-6 (GHRP-6) is the first hexapeptide studied extensively in humans. More recently, peptidyl superanalogues GHRP-1, GHRP-2 and hexarelin, and nonpeptidyl mimetics, such as the spiroindoline derivative MK-677, have been synthesized and their effects have been studied in humans. The GH-releasing activity of GHS is marked, dose related and reproducible after intravenous, subcutaneous, intranasal and even oral administration. The effect of GHS is partially desensitized but prolonged, intermittent oral administration increases insulin-like growth factor I (IGF-I) levels. The GH-releasing effect of GHS undergoes age-related variations; it increases from birth to puberty, remains similar in adulthood and decreases with ageing. The effect of GHS on GH release is synergistic with that of GHRH, while it is only partially refractory to inhibitory influences, which nearly abolish the effect of GHRH. GHS maintain their GH-releasing activity in some somatotrope hypersecretory states such as acromegaly, anorexia nervosa, hyperthyroidism and critical illness. The GH response to GHS has been reported clear although reduced in GH deficiency, obesity and hypothyroidism, while it is strongly reduced in patients with pituitary stalk disconnection or Cushing's syndrome. In short children, elderly subjects, critically ill patients and even in adult patients with GH deficiency an increase of IGF-I has been shown after GHS treatment. These data indicate that treatment with orally active GHS in humans enhances the activity of the GH-IGF-I axis and could be clinically useful.
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PMID:Orally active growth hormone secretagogues: state of the art and clinical perspectives. 966 94

Previous observations raised the possibility that circulating GH-binding protein (GHBP) may serve as a useful index for tissue GH receptor (GHR) responsiveness in humans. Indeed, there are many examples to indicate that across a wide scope of comparative studies, ontogenic data, experimental systems, physiological conditions, nutritional states, and diseases there is a close relationship between the concentration of GHR and the level of serum GHBP. In the present review, we discuss various aspects that might affect differentially cellular GHR and circulating GHBP, based on species and tissue divergence, regulation of cell-surface GHR turnover, GHR cleavage mechanism, GHR mRNA splicing, and GH insensitivity (GHI) syndrome patients with normal or high serum GHBP levels. Most previous experimental data were collected through comparative analysis of human GHBP against GHR and GHBP determinations in animal models. Yet, GHBPs possess species-specific properties, and the mechanism for their generation and regulation display evolutionary divergence. Another important aspect is tissue divergence, in terms of GHR regulation and its cleavage to GHBP. Although GHBP is generated mainly from the liver GHR, many other tissues express GHRs and probably also contribute to the total GHBP level. Human GHBP is generated by proteolytic cleavage of GHR at the cell-surface and, thus, occupancy or modulation of GHR turnover/internalization would impact the level of cell-surface GHR that are available for proteolysis. An additional degree of complexity arises from recent reports, implicating a protein kinase C-regulated metalloprotease activity in GHBP generation. This suggests that the proteolytic system, which controls the specific cleavage mechanism and switch between GHR proteolysis and GHBP shedding, is a regulated process. Finally, differential splicing regulation to the full-length, active human GHR (hGHR) and the inactive truncated hGHRtr isoform messenger RNA transcripts might regulate both the production of GHBP and GHR bioactivity, as hGHRtr generates large amounts of GHBP but has a dominant negative effect on GH signaling. Several clinical GH-resistant conditions, such as liver cirrhosis, renal insufficiency, insulin-dependent diabetes mellitus, hypothyroidism, malnutrition, or critical illness are associated with reduced GHBP levels. However, this is not universally true, as in other conditions (e.g. early childhood, acromegaly) decreased GHBP levels are not associated with GHI. Divergence between serum GHBP and insulin-like growth factor I, such as which occur during puberty or obesity, also questions whether GHBP levels reflect GHR function. Even in patients with GHI syndrome, serum GHBP cannot be relied on to detect all GHR mutations. The correct assessment of GHR expression and GH functionality in an individual patient will require, in parallel to measurements of serum GHBP, additional detailed diagnostic screening of the entire GH-insulin-like growth factor I axis.
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PMID:Clinical review 112: Does serum growth hormone (GH) binding protein reflect human GH receptor function? 1072 17

The possibility that the action of growth hormone (GH) on cartilage is mediated by a separate hormonal agent found in serum was suggested by incubation with hypophysectomized rat costal cartilage. The stability of this tissue permitted long incubations and the measurement of the uptake of 35S-sulfate provided a convenient index of growth stimulation. Under the conditions arbitrarily selected, normal rat serum, but not serum from hypophysectomized rats, induced a great stimulation of 35S uptake. In contrast, GH added directly to cartilage in these incubations was virtually inactive. It was suggested that a serum sulfation factor, now known as insulin-like growth factor-I (IGF-I), was a mediator of GH action. Recently it has been observed that addition of 35S-sulfate after 24 h of preincubation with GH permitted the direct effect of GH to be recognized. Other observations in intact hypophysectomized rats have established that GH can induce the expression of IGF-I in cartilage that acts in an autocrine-paracrine manner. The relative importance of the endocrine and autocrine-paracrine routes of IGF-I action on the growth of cartilage is in dispute. It is clearly established that serum IGF-I exerts a negative feedback on GH secretion by action on the hypothalamus and pituitary. Serum IGF-I concentrations reflect GH action in postnatal life. Measurement of serum IGF-I is the most-valuable index of GH hypersecretion in acromegaly and in conditions of growth impairment. GH receptor deficiency leads to a marked decrease in circulating IGF-I. Hypernutrition and hyperinsulinism of obesity directly promote hepatic IGF-I release and inhibit GH secretion by the pituitary. Differences in hepatic IGF-I synthesis in response to GH may contribute to physiological differences in stature.
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PMID:Growth hormone axis overview--somatomedin hypothesis. 1091 14

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

Insulin and insulin-like growth factor (IGF) axes are major determinants of proliferation and apoptosis and thus may influence carcinogenesis. In various animal models, modulation of insulin and IGF-1 levels through various means, including direct infusion, energy excess or restriction, genetically induced obesity, dietary quality including fatty acid and sucrose content, inhibition of normal insulin secretion and pharmacologic inhibition of IGF-1, influences colonic carcinogenesis. Human evidence also associates high levels of insulin and IGF-1 with increased risk of colon cancer. Clinical conditions associated with high levels of insulin (noninsulin-dependent diabetes mellitus and hypertriglyceridemia) and IGF-1 (acromegaly) are related to increased risk of colon cancer, and increased circulating concentrations of insulin and IGF-1 are related to a higher risk of colonic neoplasia. Determinants and markers of hyperinsulinemia (physical inactivity, high body mass index, central adiposity) and high IGF-1 levels (tall stature) are also related to higher risk. Many studies indicate that dietary patterns that stimulate insulin resistance or secretion, including high consumption of sucrose, various sources of starch, a high glycemic index and high saturated fatty acid intake, are associated with a higher risk of colon cancer. Although additional environmental and genetic factors affect colon cancer, the incidence of this malignancy was invariably low before the technological advances that rendered sedentary lifestyles and obesity common, and increased availability of highly processed carbohydrates and saturated fatty acids. Efforts to counter these patterns are likely to have the most potential to reduce colon cancer incidence, as well as cardiovascular disease and diabetes mellitus.
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PMID:Insulin, insulin-like growth factors and colon cancer: a review of the evidence. 1216 83

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

Type-1 diabetes, resulting from immune-mediated destruction of beta cells, appears to be rare in cats. Type-2 diabetes, characterised by inadequate insulin secretion and impaired insulin action, is the most common form of diabetes in cats. Other specific forms of diabetes constitute a substantial minority of cases. The most common is pancreatic destruction from pancreatic adenocarcinoma. Less frequent causes are insulin resistance from other endocrinopathies including acromegaly. Diabetes in cats is characterised by variable loss of insulin secretory capacity and insulin resistance. Glucose toxicity, islet amyloid-deposition, and pancreatitis contribute to further loss of beta cells and failure of insulin secretion. A significant number of cats undergo remission of their diabetes, usually 1-3 months after good glycaemic control is instituted. Obesity, old age, and Burmese breed are recognised risk factors for the development of diabetes in cats.
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PMID:Current understanding of feline diabetes: part 1, pathogenesis. 1191 29

Certain features of a group of 1309 diabetics were studied. The group was considered representative of Scottish diabetics since the sex distribution of cases corresponded to the sex distribution of deaths from diabetes recorded in the official mortality statistics for Scotland. Evidence is presented which justifies the use of Scottish mortality statistics for this purpose. A study of the incidence of diabetes in 413,110 Scottish recruits (male and female) suggested that in the general population the sex distribution of persons with undiagnosed diabetes might not be the same as that of persons known to have the disease. In both sexes, the disease began most frequently after age 40; sex incidence was equal up to age 40 and thereafter, female diabetics were more common than male diabetics. The high frequency of diabetes in women of middle age was confined to married women and appeared to be related, at least in part, to previous childbearing. The age at onset and the severity of the disease in this group of women were apparently uninfluenced by marriage and childbearing. Adult diabetics were no taller than the controls (hospital visitors). In the case of women diabetics, the maximum weight was significantly greater than that of the control from age 20 onwards, and in the case of male diabetics, from age 40 onwards. In both groups, married women were heavier than single women. The mean blood pressure was significantly higher in female diabetics after age 30 than in the corresponding control group. This hypertension could not be adequately explained on the grounds of obesity; it was not related to previous childbearing. Of 923 diabetics questioned, 23.2% had a family history of diabetes. As age at onset of the disease increased, positive family histories decreased. There was no relationship between presence of a positive family history and severity of the disease. The frequency of a positive family history in obese and hypertensive patients did not differ from that of a group of diabetics as a whole. In the group of middle aged married women, those with the largest families gave the fewest positive family histories. It was considered that there was no proof of parital sex linkage of the hereditary factor, and no convincing evidence that age at onset is determined by heredity. Thyrotoxicosis was present in 1% of the cases. Age at onset in these cases was similar to that of diabetics in general. Sepsis was associated with onset of diabetes in 6% of the cases, but average age at onset was that of diabetics in general and a family history of diabetes was obtained in 18% of the cases. After examining these data, it was concluded that etiologic factors in human diabetes could be divided into hereditary factor(s) fundamental to almost all cases or factors increasing the susceptibility of those persons predisposed to diabetes by a hereditary factor such as abesity, factor(s) associated with childbearing, and minor factors such as sepsis, thyrotoxicosis, or acromegaly.
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PMID:Survey of a Scottish diabetic clinic: a study of the etiology of diabetes mellitus. 1233 41

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