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)

Serum cholesterol concentrations, lecithin-cholesterol acyltransferase (LCAT), and hepatic 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activities of lean and obese Zucker rats were compared. The excess serum cholesterol of the female obese rat is found to be mainly free cholesterol associated with very low-density lipoproteins, whereas that of the male obese rat is carried as cholesterol esters associated with high-density lipoproteins. The high level of serum free cholesterol in the female obese rat is not due to a deficiency in lecithin-cholesterol acyltransferase activity. This enzyme activity is found to be elevated in the male obese rat. Hepatic HMG-CoA reductase activity declines as rats mature; this observation is most apparent in obese male rats. Lean rats exhibit the normal diurnal rhythm, but mature obese rats show little diurnal variation in HMG-CoA reductase activity. Obese female rats maintain high reductase activities, but the activities of obese male rats remain low at all times. Starvation suppresses liver HMG-CoA reductase and serum cholesterol in both lean and obese female rats. Thus, an increase in hepatic cholesterol synthesis may contribute to hypercholesterolemia in the obese female Zucker rat. On the other hand, factors such as nonhepatic synthesis or a decreased cholesterol catabolism may play more important roles in maintaining high serum cholesterol in the obese male Zucker rat.
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PMID:Serum cholesterol, lecithin-cholesterol acyltransferase, and hepatic hydroxymethylglutaryl coenzyme A reductase activities of lean and obese Zucker rats. 396 58

Virilization in women is associated with increased production of testosterone as well as a variety of androgenic prehormones, including androstenedione, androstenediol, DHEA, DHEA-sulfate, dihydrotestosterone and androstanediol. Of these hormones, it is likely that testosterone is the androgen which initiates a series of androgen-receptor mediated events resulting in stimulation of 5 alpha reductase in the skin and hair follicles, producing dihydrotestosterone locally. The metabolism of testosterone to dihydrotestosterone within the hair follicle results in increased clearance of testosterone, however at the expense of hair follicle stimulation. Increased 5 alpha reductase of the skin and hair allows other prehormones to be metabolized to dihydrotestosterone and androstanediol, further stimulating the hair follicle (multiplier effect). In obese women, androgen production rates are elevated and SHBG levels are depressed, in many cases to the same magnitude as that observed in hirsute women. Increased androgen production rates in obesity, however, are associated with major increases in clearance rates of these androgens. Resultant androgen blood levels are even lower than observed in the non-obese population. It appears likely that adipose tissue is the site of the increased clearance rates and metabolism of prehormones to dihydrotestosterone and androstanediol. A delicate balance likely exists between production and clearance of these biologically active hormones. Minor aberrations in this balance may result in the increased incidence of hirsutism seen in the obese female population.
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PMID:A comparison of androgen production and clearance in hirsute and obese women. 688 88

Obesity is often associated with an elevated total body cholesterol synthesis. In order to evaluate the role of hepatic cholesterogenesis in this phenomenon, we assayed the rate-limiting step in cholesterol biosynthesis, 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase in the microsomal fraction of liver biopsies obtained operatively from ten morbidly obese (relative body weight greater than 155%) subjects. Eighteen normal-weight patients (relative body weight less than 120%) with cholesterol gallstones served as controls. Hepatic HMG CoA reductase activity, expressed as pmol X min-1 X mg protein-1, was 60% higher in the obese subjects compared to the gallstone patients (P less than 0.05). Microsomal protein concentration was lower in the obese patients, so that enzyme activity calculated per gram liver was not significantly different between the two groups. However, mevalonate formation, expressed in terms of total organ activity, was higher in the obese than in the nonobese group. The results suggest that the liver is a major contributor to the increased cholesterol production seen in obesity.
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PMID:Hepatic cholesterol metabolism in obesity: activity of microsomal 3-hydroxy-3-methylglutaryl coenzyme A reductase. 711 74

In obese men, sex hormone-binding globulin levels (SHBG) as well as total plasma testosterone (T) levels are decreased. Data concerning the levels of nonprotein-bound testosterone (FT) are discordant, with some researchers reporting normal levels, and other reporting decreased levels. The latter imply an impairment of the feedback regulation mechanism of FT levels. We investigated whether an eventual decrease in FT levels and, hence, functional impairment of the gonadostat might occur only at a more severe degree of obesity than that required for a decrease in SHBG and total T levels. We, therefore, determined androgen and precursor levels in three groups of male subjects: nonobese controls [body mass index (BMI), G (kg)/L2 (m) < 26; n = 70]; moderately (BMI, 30-35; n = 18), and severely (BMI, > 40; n = 22) obese men, respectively. In a subgroup of these controls, moderately and severely obese subjects, respectively, we studied LH levels as well as LH pulsatility. Moreover, as a decrease in FT levels might affect the metabolic pattern of the androgens and, more specifically, 5 alpha-reductase activity, we determined the plasma levels of the major 5 alpha-reduced metabolites, androstanediol glucuronide and androsterone glucuronide (AG), as well as the urinary excretion of the major 5 alpha (androsterone glucuronide) and the major 5 beta (etiocholanolone glucuronide) metabolite of the androgens. In moderately obese men, T levels were decreased, which was the consequence of the decreased SHBG-binding capacity. FT levels, however, were normal as were LH levels and both pulse amplitude and frequency of LH pulses, suggesting a normal hypothalamic control of LH secretion. In severely obese men (BMI, > 40), total T, FT, and LH levels as well as LH pulse amplitude were decreased, indicating a functional impairment of the gonadostat. Even in massively obese subjects with decreased FT levels, androgen metabolism and 5 alpha-reductase activity appeared to be normal, as suggested by similar androstanediol glucuronide and AG levels, determined by RIA or calculated from the conversion rates of precursors obtained in nonobese subjects. This was confirmed by the similar AG/eticholanolone glucuronide ratios in obese and nonobese men.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pathogenesis of the decreased androgen levels in obese men. 796 11

Patients with primary hypercholesterolemia and established coronary artery disease (CAD) with additional associated risk factors for atherosclerosis are considered for lipid-lowering drug therapy at lower levels of total and/or low-density lipoprotein cholesterol (LDL-C) than are patients with isolated hypercholesterolemia. As regards prevention of cardiovascular morbid events, high-risk patients are expected to receive the most benefit from lipid-lowering treatment. Thus, it is of interest to evaluate the efficacy, safety, and tolerability of the new lipid-lowering agent fluvastatin, a new, wholly synthetic 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitor, in patients at high risk. A retrospective analysis was based on data from controlled clinical trials in which 1,815 patients were treated with fluvastatin at a daily dose of > or = 20 mg and 783 patients received placebo. Of the fluvastatin-treated patients, 328 (18.1%) had CAD compared with 136 (17.4%) patients taking placebo. Within these groups, 186 fluvastatin patients and 75 placebo patients had at least one of the following additional risk factors: hypertension, obesity, and/or fasting blood glucose levels above the upper limit of normal (ULN). Patients at high risk, as defined above, were compared with patients without CAD or any risk factors (fluvastatin, n = 837; placebo, n = 375). The effect of 40 mg of fluvastatin on LDL and high-density lipoprotein cholesterol (HDL-C), and triglycerides tended to be enhanced in patients at high risk (HR) compared with those at low risk (LR). Changes from baseline in HR patients were: LDL-C, -26.6%; HDL-C, 6.4%; triglycerides, -13%. Changes in LR patients were: LDL-C, -24.8%; HDL-C, 4.4%; triglycerides, -6%. All of these changes were highly significant (0.001 < p < 0.01). No patient in the HR group experienced a confirmed (measured on two consecutive occasions) increase > 3 x ULN in aspartate (ASAT) or alanine (ALAT) aminotransferases, nor any notable increases in creatine kinase > 10 x ULN. The tolerability of fluvastatin, as assessed by analysis of adverse events, was not consistently influenced by concomitant high risk. This exploratory analysis of the efficacy and safety profile of fluvastatin in patients at high risk for atherosclerosis suggests that such treatment is efficacious, safe, and well tolerated. The observed tendency toward an improved efficacy in the high-risk group will need further confirmation using data from prospective studies in such patients.
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PMID:Fluvastatin in primary hypercholesterolemia: efficacy and safety in patients at high risk. An analysis of a clinical trial database. 801 71

This review examines the relationship between renal transplantation and two important metabolic consequences: hyperlipidemia and glucose intolerance. Before cyclosporine, hypertriglyceridemia and hypercholesterolemia were common abnormalities that worsened in the cyclosporine era. In addition to obesity, steroid use, and reduced renal function, cyclosporine plays an independent role in elevating cholesterol levels, with particular reference to the modulation of the low-density lipoprotein receptor. Management includes maintaining low levels of steroid, manipulation of cyclosporine appropriately, diets low in fat and cholesterol, and an exercise program. Pharmacologic management in general revolves around the HMG-COA reductase drugs, which can be used safely if liver function tests and muscle enzymes are monitored. The unmasking of clinically important glucose intolerance occurs in 5 to 10% of patients in the cyclosporine era, not different from the earlier experience. Steroids and cyclosporine independently can worsen glucose tolerance to unmask a genetic predisposition to Type II diabetes in some and to even create glucose intolerance in otherwise normal individuals. Management is based on dietary and immunosuppressive drug dosing manipulations and the judicious use of oral hypoglycemic agents. Half of these recipients may ultimately need insulin. In summary, hyperlipidemia and glucose intolerance remain important metabolic consequences of renal transplantation that affect long-term patient survival unless recognized and treated.
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PMID:Hyperlipidemia and glucose intolerance in the post-renal transplant patient. 819 94

Obese persons are at risk for cholesterol gallstones because their bile is saturated with cholesterol. The risk increases during rapid weight loss by means of certain very-low-calorie diets or gastric bypass surgery. Gallstone risk factors during rapid weight loss include increased bile cholesterol saturation index and gallbladder stasis. Obese subjects were randomized to one of two low-calorie liquid diets for rapid weight loss: a 520-kcal diet with less than 2 g fat/d, and a 900-kcal diet with 30 g fat/d (including one 10-g fat meal to stimulate maximal gallbladder emptying). Bile and blood lipids, saturation index, leukocyte 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase activity, and ultrasonographic gallbladder emptying were measured repeatedly during dietary treatment. Both diets produced comparable weight loss of 22%. Bile cholesterol saturation index increased during both diets (26%), but fell to 15% below prediet level after weight loss. Compared with subjects' maximal gallbladder emptying fraction of 66%, the 520-kcal diet provided poor gallbladder emptying (35%), whereas the 10-g fat meal of the 900-kcal diet provided maximal emptying. Gallstones developed in four of six 520-kcal subjects and none of seven 900-kcal subjects (P = .021), an unanticipated difference that resulted in premature study termination for ethical reasons. Blood lipids and HMG CoA reductase activity in mononuclear leukocytes fell at week 8 during both diets, but recovered while weight was still being lost. The findings suggest that gallstone risk during rapid weight loss may be reduced by maintenance of gallbladder emptying with a small amount of dietary fat. Ultimately, weight loss reduced bile cholesterol saturation and improved highdensity lipoprotein (HDL) levels.
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PMID:The role of gallbladder emptying in gallstone formation during diet-induced rapid weight loss. 878 21

Hepatic cholesterol metabolism was studied in operative liver biopsies from 17 morbidly obese subjects and compared with that in samples from 15 nonobese controls. The aim was to understand the mechanisms causing the hypersecretion of cholesterol into bile. The content of cholesteryl esters was increased threefold in the liver of obese subjects compared with that of the controls (P < .0001). The activity and the messenger RNA (mRNA) level of 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase, the rate limiting enzyme for cholesterol synthesis, were higher in the obese subjects compared with the nonobese subjects (75% and 140%, respectively; P < .01). In the obese subjects, the activity and mRNA level of cholesterol 7alpha-hydroxylase, which regulates the catabolism of cholesterol to bile acids, were also increased by 140% (P < .05) and 180% (P = .06), respectively, as compared with the controls. There was a significant correlation between the activities and the mRNA levels of cholesterol 7alpha-hydroxylase among the obese subjects (r = +0.65, P < .01). The activities of acyl-coenzyme A:cholesterol acyltransferase (ACAT), which governs cholesteryl ester formation, in obese and nonobese patients were 12.5 +/- 1.7 and 8.1 +/- 1.2 pmol/min/mg protein, respectively (P < .05), and the low-density lipoprotein (LDL) receptor mRNA levels were 5.3 +/- 0.7 and 4.5 +/- 0.9 molecules of mRNA/microg of RNA, respectively. We conclude that the activities of three key enzymes in hepatic cholesterol metabolism were increased in morbidly obese subjects compared with nonobese controls, as were mRNA levels of HMG CoA reductase and cholesterol 7alpha-hydroxylase. The mRNA level of the LDL receptor in the obese subjects was not significantly changed. The hypersecretion of cholesterol occurring in obesity is neither due to a reduced conversion of cholesterol to bile acids nor to a decreased esterification of hepatic cholesterol but may be due to an increased synthesis of cholesterol.
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PMID:Hepatic cholesterol metabolism in human obesity. 918 66

Glucocorticoid hormones, acting via nuclear receptors, regulate many metabolic processes, including hepatic gluconeogenesis. It recently has been recognized that intracellular glucocorticoid concentrations are determined not only by plasma hormone levels, but also by intracellular 11beta-hydroxysteroid dehydrogenases (11beta-HSDs), which interconvert active corticosterone (cortisol in humans) and inert 11-dehydrocorticosterone (cortisone in humans). 11beta-HSD type 2, a dehydrogenase, thus excludes glucocorticoids from otherwise nonselective mineralocorticoid receptors in the kidney. Recent data suggest the type 1 isozyme (11beta-HSD-1) may function as an 11beta-reductase, regenerating active glucocorticoids from circulating inert 11-keto forms in specific tissues, notably the liver. To examine the importance of this enzyme isoform in vivo, mice were produced with targeted disruption of the 11beta-HSD-1 gene. These mice were unable to convert inert 11-dehydrocorticosterone to corticosterone in vivo. Despite compensatory adrenal hyperplasia and increased adrenal secretion of corticosterone, on starvation homozygous mutants had attenuated activation of the key hepatic gluconeogenic enzymes glucose-6-phosphatase and phosphoenolpyruvate carboxykinase, presumably, because of relative intrahepatic glucocorticoid deficiency. The 11beta-HSD-1 -/- mice were found to resist hyperglycamia provoked by obesity or stress. Attenuation of hepatic 11beta-HSD-1 may provide a novel approach to the regulation of gluconeogenesis.
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PMID:11beta-hydroxysteroid dehydrogenase type 1 knockout mice show attenuated glucocorticoid-inducible responses and resist hyperglycemia on obesity or stress. 940 15

Insulin resistance is characterized principally by impaired insulin-mediated glucose uptake which provokes a compensatory increase in pancreatic beta-cell secretory activity. For a time this may produce well-controlled plasma glucose levels but as the insulin resistance worsens the augmented insulin production becomes inadequate to keep plasma glucose at euglycemia leading to the development of non-insulin dependent diabetes mellitus (NIDDM), accompanied by hyperinsulinemia and hyperglycemia. A number of metabolic defects are associated with NIDDM including obesity, hypercoagulability, cardiovascular disease risk factors such as hypertension and dyslipidemia and these constitute the insulin resistance syndrome. The identity of the biochemical factor that might link all these defects is not yet known. We have hypothesized that platelet-activating factor (1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine, PAF) may be such a link. In this study, we measured plasma acetylhydrolase (EC.1.1.48), which degrades PAF to the inactive metabolise lyso-PAF, as a surrogate for PAF activity in three groups of hypercholesterolemic subjects: lean controls (n = 9), non-diabetic obese (n = 6) and NIDDM subjects (n = 6). The ages and body mass indices of the subjects were 46 +/- 3.1 and 24.2 +/- 2.2 for the lean controls, 52 +/- 2.5 and 28.7 +/- 0.9 for the NIDDM subjects and 60 +/- 2 and 27.6 +/- 2.1 for the obese, non-diabetic subjects (mean +/- S.E.M.). The measurements were made before and after therapy with the cholesterol-lowering drug lovastatin, a 3-hydroxy 3 methylglutaryl (HMG) coenzyme. A reductase inhibitor (40 mg/day) for 3 months. Fasting plasma glucose (FPG) levels were 91 +/- 11, 96 +/- 3 and 146 +/- 11 mg/dl, for the lean, obese and NIDDM subjects, respectively, before therapy began. Lovastatin did not affect FPG in any of the three subject groups. Before treatment, the fasting plasma insulin (FPI) levels were 6.1 +/- 0.92, 10.83 +/- 2.03 and 14.68 +/- 3.64 mU/l for the lean, non-diabetic obese and NIDDM subjects, respectively. After lovastatin therapy only the obese group exhibited a significant change in FPI (15.35 +/- 2.47 mU/l) (P < 0.05). Total cholesterol levels were similar in all three groups both before and after lovastatin therapy but within each group lovastatin therapy significantly reduced the total cholesterol by 32, 29 and 34% in the lean, obese and NIDDM subject groups respectively (P < 0.0001). Lovastatin therapy reduced LDL-cholesterol levels by 40, 32 and 46% in the lean, obese and NIDDM subjects, respectively, but produced no significant effect on HDL or triglyceride levels. Before therapy, the plasma acetylyhydrolase activities were 104 +/- 7, 164 +/- 7 and 179 +/- 7 nmol/ml per min in the lean, obese and NIDDM subjects, respectively. Lovastatin therapy reduced plasma acetylhydrolase levels to 70 +/- 7, 87 +/- 6 and 86 +/- 7 nmol/ml per min in the lean, obese and NIDDM subjects, respectively. Plasma acetylhydrolase activity was predominantly (> 80%) associated with LDL cholesterol both before and after lovastatin treatment. Also, plasma acetylhydrolase activity significantly correlated with fasting plasma insulin levels before lovastatin therapy but not after. Taken together, this study clearly implicates PAF metabolism in three defects associated with the insulin resistance syndrome: hypercholesterolemia, obesity and NIDDM. Additionally, we conclude that chronic hyperinsulinemia may play a significant role in the production of plasma acetylhydrolase.
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PMID:Plasma PAF acetylhydrolase in non-insulin dependent diabetes mellitus and obesity: effect of hyperinsulinemia and lovastatin treatment. 945 36


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