Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A 76-year-old diabetic woman with non-obese Cushing's syndrome developed poor glycemic control with glibenclamide. She presented with a slight weight loss while bedridden due to a fall. Cushing's syndrome in this patient was suspected because of hypercortisolemia with eosinopenia, and adrenal Cushing's syndrome was diagnosed by endocrine and radiological examinations. A right adrenal adenoma was confirmed by autopsy. In this patient, progressive obesity and other common features of Cushing's syndrome may have been concealed by aging itself and coexisting diabetes mellitus.
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PMID:Non-obese Cushing's syndrome in an aged woman with non-insulin-dependent diabetes mellitus. 877 70

Most patients with hypertension in the United States have essential (primary) hypertension (95%), the cause of which is unknown. The remaining 5% of adults with hypertension have the secondary form of hypertension, the cause and pathophysiologic process of which are known. Internists and other primary care physicians refer to this as treatable or curable hypertension, because the hypertension can be managed or even controlled with medications. Similarly, the condition is called surgical hypertension by surgeons in the belief that once the cause is determined and identified, surgical intervention will result in cure of hypertension. Secondary causes of hypertension include renal parenchymal disease, renovascular diseases, coarctation of the aorta, Cushing's syndrome, primary hyperaldosteronism, pheochromocytoma, hyperthyroidism, and hyperparathyroidism. Occasionally included in this category are alcohol- and oral contraceptive-induced hypertension and hypothyroidism, but these conditions are not discussed herein. The evaluation of secondary hypertension is of interest and can bring together different facets of anatomy, physiology, pharmacology, and radiology in the medical and surgical treatment of these disorders. Despite enthusiasm that can be generated in the evaluation of these conditions, evaluation can be expensive and should not be conducted for all patients with hypertension. Features that aid in the diagnosis of secondary hypertension include the following: 1. Onset of hypertension before the age of 20 or after the age of 50 years. The presence of hypertension at a young age may suggest coarctation of the aorta, fibromuscular dysplasia, or an endocrine disorder. Hypertension found for the first time after the age of 50 years may suggest the presence of renovascular hypertension caused by atherosclerosis. 2. Markedly elevated blood pressure or hypertension with severe end-organ damage, as in grade III or IV retinopathy. These findings suggest the presence of renovascular hypertension or pheochromocytoma. 3. Specific body habitus and ancillary physical findings. For example, truncal obesity and purple striae occur with hypercortisolism, and exophthalmos is associated with hyperthyroidism. 4. Resistant or refractory hypertension (poor response to medical therapy usually necessitating use of more than three antihypertensive medications from three different classes). 5. Specific biochemical test that suggest the existence of certain disorders, such as hypercalcemia in hyperparathyroidism, hyperglycemia in Cushing's syndrome and pheochromocytoma, and unprovoked hypokalemia with renin-producing tumors, primary hyperaldosteronism, or renin-mediated renovascular hypertension. 6. Other characteristics that may suggest secondary hypertension such as abdominal diastolic bruits (renovascular hypertension), decreased femoral pulses (coarctation of the aorta), or bitemporal hemianopias (Cushing's disease). A combination of a good history and physical examination, astute observation, and accurate interpretation of available data usually are helpful in the diagnosis of a specific causation.
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PMID:Secondary hypertension: evaluation and treatment. 894 19

There are striking similarities between Cushing's syndrome and the 'metabolic syndrome X' since both are characterised by hypertension, insulin resistance, glucose intolerance, hyperlipidaemia, and central obesity. The possibility that cortisol contributes to the associations between multiple risk factors for cardiovascular disease was rejected when it was demonstrated that there was no elevation in cortisol secretion or circulating concentration in patients with essential hypertension or type 2 diabetes mellitus. However, in recent years the enormous variability in tissue sensitivity to cortisol has become apparent. We have measured tissue sensitivity to glucocorticoids using an assay of skin vasoconstriction and have demonstrated its relationship with high blood pressure, insulin resistance, glucose intolerance, and hypertriglyceridaemia. Our data suggest that the increase in dermal glucocorticoid sensitivity is not a secondary phenomenon and may be explained by increased glucocorticoid receptor affinity together with impaired inactivation of cortisol by 11 beta-hydroxysteroid dehydrogenase. Importantly, we have not found that enhanced peripheral glucocorticoid sensitivity is associated with compensatory suppression of cortisol secretion, so that the maintenance of normal circulating cortisol concentrations in patients with cardiovascular risk factors may be paradoxical and inappropriate.
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PMID:Abnormal glucocorticoid activity in subjects with risk factors for cardiovascular disease. 896 30

In vivo FFA block basal and stimulated GH secretion and have been implicated in the pathogenesis of the altered GH secretion present in obesity and Cushing's syndrome. Although a direct action on the somatotroph cell has been postulated, the FFA mechanism of action is unknown. The main biological target for FFA action is the cellular membrane, and it has been shown that these metabolites can block the activity of a number of plasma membrane pumps, channels, and receptor systems. In the present work, it was observed using different types of pituitary cells (GH3, GH4C1, and rat pituitary primary cultures) that cis-unsaturated fatty acids, such as oleic, 1) do not perturb TRH binding or the homologous desensitization of the TRH receptor; 2) inhibit TRH-induced inositol 1,4,5-trisphosphate/diacylglycerol generation, probably by a direct perturbation of phospholipase C; 3) reduce the TRH-induced intracellular Ca2+ redistribution and the ensuing changes in membrane potential; 4) completely inhibit the [Ca2+]i rise due to the TRH-induced opening of voltage-gated Ca2+ channels; and 5) abolish the TRH-induced Ca2+ efflux through plasma membrane Ca2+ pumps. These results suggest that cis-unsaturated FFA such as oleic acid selectively perturb the function of integral membrane proteins such as enzymes, channels, and pumps without perturbing the binding of ligands to receptors.
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PMID:cis-unsaturated free fatty acids block growth hormone and prolactin secretion in thyrotropin-releasing hormone-stimulated GH3 cells by perturbing the function of plasma membrane integral proteins. 897 13

Cushing's syndrome is characterized by central obesity and muscle wasting. As GH is anabolic, it may be able to counteract the loss of body protein. To evaluate the potential therapeutic use of GH preoperatively, eight patients with Cushing's syndrome received sc injections of recombinant human GH (0.07 U/kg.day) for 7 days. Whole body leucine and glucose turnover were measured after an infusion of [1-13C]leucine and [6,6-2H2]glucose before (day 0) and after 2 and 7 days of GH treatment. Compared with the value on day 0, there was a significant increase on days 2 and 7 in insulin (P < 0.005 and P < 0.001), C peptide (P < 0.01 and P < 0.005), insulin-like growth factor I (P < 0.001), and glucose concentrations (P < 0.01 and P < 0.005) and a decrease in the leucine concentration (P < 0.005). There was no significant change in glucose production rate, glucose MCR, leucine production rate (a measure of protein degradation), or nonoxidative leucine disappearance rate (a measure of protein synthesis). The leucine MCR was increased after 7 days (P < 0.05), and the clearance of leucine into protein (nonoxidative leucine disappearance rate/leucine concentration) was increased (P < 0.05) after 2 and 7 days of GH treatment. This is consistent with GH stimulating the availability of amino acid transporters. GH may, therefore, have a therapeutic role in the preoperative treatment of Cushing's syndrome.
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PMID:The effect of recombinant human growth hormone on glucose and leucine metabolism in Cushing's syndrome. 898 67

A 72-year-old man was admitted to our hospital because of a tumor-like shadow on a chest X-ray film. At the initial examination, he had clinical signs of Cushing's syndrome: moon face, central obesity, and hypertension. A computed tomographic scan of chest showed an abnormal shadow in the lung (5 x 6 cm) with involvement of the right paratracheal and anterior tracheal lymph nodes, and a right-sided pleural effusion. Small cell lung cancer (extended disease; T2N2M6 stage IV) was diagnosed after a transbronchial biopsy. The concentrations of adrenocorticotropic hormone, cortisol, and parathyroid hormone in plasma were markedly elevated, and there was no circadian rhythm (336 pg/ml. more than 60.1 micrograms ml. and 805 pg/ml, respectively). Fluid obtained by thoracentasis had malignant cells, and the levels of adrenocorticotropic hormone and parathyroid hormone in the effusion (1120 pg/ml and 1810 pg/ml, respectively) were higher than those in serum, which indicates that these hormones were produced by the tumor cells. The patient received chemotherapy and responded well, but he died of respiratory failure 26 months later. The response rate to chemotherapy in elderly patients with lung cancer is said to be comparable to that in younger patients, but treatment may be difficult because of poor performance status and diminished physical capacity. Although patients with lung cancer complicated by Cushing's syndrome have a poor prognosis, this patient survived for more than 2 years after the disease was diagnosed.
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PMID:[Cushing's syndrome due to small cell lung cancer with ectopic production of adrenocorticotropic and parathyroid hormone]. 915 97

A 43-year-old woman presented with obesity and lumbago. Endocrinological examinations revealed normal plasma cortisol levels and a suppressed serum adrenocorticotropic hormone (ACTH) level. On venous sampling, markedly elevated plasma cortisol levels were observed for bilateral adrenal veins (243 and 62.3 micrograms/dl on the right and left sides, respectively). Although the computed tomogram revealed bilaterally enlarged adrenal glands, 131I-adosterol scintigram showed a strong uptake only on the right side. Right adrenalectomy successfully relieved Cushing's syndrome. Pathological diagnosis was adrenocortical adenoma, 3.5 cm in diameter. Cushing's syndrome recurred in 9 years. At that time, she underwent left subtotal adrenalectomy including a 3-cm adrenocortical adenoma. Postoperative convalescence has been uneventful with oral steroid supplementation. All 14 previously reported cases of bilateral adrenocortical adenoma (BAA) causing Cushing's syndrome as well as the present case were concurrent and dominant in females of reproductive age. This suggests that some cofactors other than ACTH, such as estrogen, contribute to the pathogenesis of BAA.
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PMID:[A case of concurrent bilateral adrenocortical adenoma causing Cushing's syndrome]. 916 55

Growth hormone-releasing peptides (GHRPs) are synthetic, non-natural peptides endowed with potent stimulatory effects on somatotrope secretion in animals and humans. They have no structural homology with GHRH and act via specific receptors present either at the pituitary or the hypothalamic level both in animals and in humans. The GHRP receptor has recently been cloned and, interestingly, it does not show sequence homology with other G-protein-coupled receptors known so far. This evidence strongly suggests the existence of a natural GHRP-like ligand which, however, has not yet been found. The mechanisms underlying the GHRP effect are still unclear. At present, several data favor the hypothesis that GHRPs could act by counteracting somatostatinergic activity both at the pituitary and the hypothalamic level and/or, at least partially, via a GHRH-mediated mechanism. However, the possibility that GHRPs act via an unknown hypothalamic factor (U factor) is still open. GHRP-6 was the first hexapeptide to be extensively studied in humans. More recently, a heptapeptide, GHRP-1, and two other hexapeptides, GHRP-2 and Hexarelin, have been synthesized and are now available for human studies. Moreover, non-peptidyl GHRP mimetics have been developed which act via GHRP receptors and their effects have been clearly demonstrated in animals and in humans in vivo. Among non-peptidyl GHRPs, MK-0677 seems the most interesting molecule. The GH-releasing activity of GHRPs is marked and dose-related after intravenous, subcutaneous, intranasal and even oral administration. The effect of GHRPs is reproducible and undergoes partial desensitization, more during continuous infusion, less during intermittent administration: in fact, prolonged administration of GHRPs increases IGF-1 levels both in animals and in humans. The GH-releasing effect of GHRPs does not depend on sex but undergoes age-related variations. It increases from birth to puberty, persists at a similar level in adulthood and decreases thereafter. By the sixth decade of life, the activity of GHRPs is reduced but it is still marked and higher than that of GHRH. The GH-releasing activity of GHRPs is synergistic with that of GHRH, is not affected by opioid receptor antagonists, such as naloxone, and is only blunted by inhibitory influences, including neurotransmitters, glucose, free fatty acids, gluco corticoids, recombinant human GH and even exogenous somatostatin, which are known to almost abolish the effect of GHRH. GHRPs maintain their GH-releasing effect in somatotrope hypersecretory states such as in acromegaly, anorexia nervosa and hyperthyroidism. On the other hand, their good GH-releasing activity has been shown in some but not in other somatotrope hyposecretory states. In fact, reduced GH responses after GHRP administration have been reported in idiopathic GH deficiency as well as in idiopathic short stature, in obesity and in hypothyroidism, while in patients with pituitary stalk disconnection or Cushing's syndrome the somatotrope responsiveness to GHRPs is almost absent. In short children an increase in height velocity has also been reported during chronic GHRP treatment. Thus, based on their marked GH-releasing effect even after oral administration, GHRPs offer their own clinical usefulness for treatment of some GH hyposecretory states.
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PMID:Growth hormone-releasing peptides. 918 61

The overnight dexamethasone (DXM) test can give false-positive results in a few conditions (e.g. stress, strenuous exercise, depression, anorexia, anxiety, anticonvulsive therapy) in diagnosing simple obesity and hypercortisolism (HC). The loperamide (LP; a peripheral opioid agonist) test has proven useful in such conditions in adults. Thirty-one obese subjects (age 10.0-19.7 y) were studied by both overnight DXM test and LP test (8 mg orally, samples for cortisol at 0, 90, 150, 180 and 210 min) on 2 separate days. LP suppressed cortisol (< or = 138 nmol l-1) at a dose of 0.1 mg kg-1 bw (half the minimum recommended dose for the drug's antidiarrhoea effect) in 14 subjects who had normal urinary (< 4970 nmol l-1) and serum (< 552 nmol l-1) cortisol, in the absence of signs and symptoms of HC (group A). The DXM test failed to suppress cortisol in three subjects in group A, two of whom were on anticonvulsive treatment. The LP test suppressed cortisol in all of 13 subjects with elevated urinary and/or serum cortisol and/or with signs or symptoms of HC (but in whom HC was subsequently excluded on clinical grounds) (group B), while the DXM test failed to suppress cortisol in three subjects of this group. One of these was under anticonvulsive treatment and one suffered from anxiety and depression. In four patients with Cushing's syndrome (group C) neither DXM nor LP could suppress cortisol levels. Therefore, the sensitivity was 100% for both DXM and LP, while the specificity was 84% for DXM and 100% for LP. No side-effects were observed with either drug. In conclusion, LP is a useful alternative to DXM in those particular conditions that can affect its specificity in children.
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PMID:Loperamide test: a simple and highly specific screening test for hypercortisolism in children and adolescents. 940 9

The cardinal clinical features of PCOS are hirsutism and menstrual irregularity from anovulation. Obesity occurs in approximately 50% of hyperandrogenic anovulatory women, some of whom also have non-insulin-dependent diabetes mellitus. Underlying these clinical findings are several biochemical abnormalities, including LH hypersecretion, hyperandrogenism, acyclic estrogen production, decreased SHBG capacity, and hyperinsulinemia, all of which contribute to increased ovarian production of androgens, particularly T. A fundamental mechanism of ovarian hyperandrogenism in PCOS is LH hypersecretion. Whether the central nervous system is a possible locus for initiating LH hypersecretion remains unclear, because exaggerated LH secretion is temporarily reversed by induced ovulatory cycles or physiologic luteal concentrations of progesterone. On the other hand, desynchronization of pulsatile LH secretion from sleep in girls with PCOS and an exaggerated (e.g., masculinized) early LH response to GnRHa testing in women with hyperandrogenic anovulation and congenital adrenal virilizing disorders suggest that events occurring before puberty, perhaps during fetal life, may irreversibly alter neuroendocrine function. Hyperinsulinemia from insulin resistance is an important regulatory mechanism governing ovarian hyperandrogenism. Hyperinsulinemia in hyperandrogenic anovulatory women potentiates ovarian hyperandrogenism by enhancing LH secretion; potentiating 17-hydroxylase and, to a lesser extent, 17,20-lyase activity; and suppressing SHBG capacity. It is a key component of hyperandrogenic anovulation caused by a type of insulin resistance that in independent and additive to that of obesity alone. Although the mechanisms governing insulin action on ovarian steroidogenesis are unknown, abnormalities of intracellular insulin signaling or cytochrome P450c 17[alpha] activity may render the 17-hydroxylase/17,20-lyase enzyme complex more sensitive to insulin. Hyperinsulinemia in hyperandrogenic anovulatory women is accompanied by upper-body obesity characterized by an increased amount of abdominal fat. Upper-body obesity is an important independent risk factor for CVD and diabetes. Although genetic and environmental factors affect fat distribution, sex steroids, particularly androgens, regulate lipid metabolism, suggesting yet another link between the hormonal and metabolic abnormalities of hyperandrogenic anovulation. A careful history and physical examination guide the extent of diagnostic testing. Slowly progressive hirsutism with anovulation of peripubertal onset usually reflects hyperandrogenic anovulation. This type of clinical presentation requires an evaluation to rule out other endocrinopathies (e.g., virilizing tumors, adult-onset CAH, hyperprolactinemia, and Cushing's syndrome). Virilization or severe rapidly progressive hirsutism requires immediate investigation to rule out a possible virilizing tumor. The ultimate goals of therapy for hyperandrogenic anovulatory women are to normalize the endometrium, antagonize androgen action at target tissues, reduce insulin resistance, and correct anovulation, if necessary.
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PMID:Polycystic ovary syndrome. 942 64


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