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:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin resistance is a key pathophysiologic feature of obesity and type 2 diabetes and is associated with other human diseases, including atherosclerosis, hypertension, hyperlipidemia, and polycystic ovarian disease. Yet, the specific cellular defects that cause insulin resistance are not precisely known. Insulin receptor substrate (IRS) proteins are important signaling molecules that mediate insulin action in insulin-sensitive cells. Recently, serine phosphorylation of IRS proteins has been implicated in attenuating insulin signaling and is thought to be a potential mechanism for insulin resistance. However, in vivo increased serine phosphorylation of IRS proteins in insulin-resistant animal models has not been reported before. In the present study, we have confirmed previous findings in both JCR:LA-cp and Zucker fatty rats, two genetically unrelated insulin-resistant rodent models, that an enhanced serine kinase activity in liver is associated with insulin resistance. The enhanced serine kinase specifically phosphorylates the conserved Ser(789) residue in IRS-1, which is in a sequence motif separate from the ones for MAPK, c-Jun N-terminal kinase, glycogen-synthase kinase 3 (GSK-3), Akt, phosphatidylinositol 3'-kinase, or casein kinase. It is similar to the phosphorylation motif for AMP-activated protein kinase, but the serine kinase in the insulin-resistant animals was shown not to be an AMP-activated protein kinase, suggesting a potential novel serine kinase. Using a specific antibody against Ser(P)(789) peptide of IRS-1, we then demonstrated for the first time a striking increase of Ser(789)-phosphorylated IRS-1 in livers of insulin-resistant rodent models, indicating enhanced serine kinase activity in vivo. Taken together, these data strongly suggest that unknown serine kinase activity and Ser(789) phosphorylation of IRS-1 may play an important role in attenuating insulin signaling in insulin-resistant animal models.
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PMID:In vivo phosphorylation of insulin receptor substrate 1 at serine 789 by a novel serine kinase in insulin-resistant rodents. 1200 86

Insulin resistance results in accumulation of triglyceride content and reduction of glycogen content in skeletal muscle. However, very few studies have measured lipid content and glycogen content in liver associated with insulin resistance. We studied the relationship between liver lipid content, liver glycogen, and insulin resistance in high-fat-fed rats, which are animal models of insulin resistance. High-fat-fed rats were hyperlipidemic, hyperglycemic, and hyperinsulinemic. Furthermore, the glucose infusion rates (GIR) were lower (normal rats, 10.35 +/- 1.66; high-fat-fed rats, 4.86 +/- 0.93 mg/kg/min; P <.01) and the triglyceride and cholesterol contents in liver were higher in the high-fat-fed rats than in normal rats. On the other hand, the glycogen content in liver was lower than in normal rats. There was an inverse relationship between liver triglyceride content and liver glycogen content. When the lipoprotein lipase (LPL) activator NO-1886 was administered to the high-fat-fed rats at a daily dose of 50 mg/kg body weight for 10 weeks, GIR (9.87 +/- 3.76 mg/kg/min, P <.05 v high-fat-fed control group) improved, causing an improvement of the hyperlipidemia, hyperglycemia, and hyperinsulinemia. Furthermore, NO-1886 decreased triglyceride and cholesterol concentrations and increased glycogen content in liver of the high-fat-fed rats. In this study, we found that insulin resistance caused fatty liver and reduced glycogen content in liver. Administration of the LPL activator NO-1886 improved the insulin resistance, resulting in an improvement in the relationship between triglyceride and glycogen content in liver of high-fat-fed rats.
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PMID:Correlation between lipid and glycogen contents in liver and insulin resistance in high-fat-fed rats treated with the lipoprotein lipase activator NO-1886. 1203 38

BACKGROUND: The purpose of the investigation presented here was to study the effects of insulin therapy in type 2 diabetes mellitus (type 2 DM) not only on glycemic control but also on other components of the metabolic syndrome, including lipid metabolism, blood pressure, and body weight. METHODS: Twelve patients with type 2 DM were studied before and after replacement of sulphonylurea treatment with insulin for 4 months. RESULTS: Insulin therapy resulted in a significant decrease in fasting glucose levels by 26%; glycated hemoglobin decreased by 17% and fructosamine values by 19%. With insulin treatment, fasting plasma triglyceride levels decreased by 28% and total HDL cholesterol and HDL(3) cholesterol increased by 17 and 11%, respectively. Low-density lipoprotein (LDL) cholesterol showed no significant change. The magnitude of postprandial lipemia after ingestion of a standard fatty meal decreased by 38%. Insulin treatment was also accompanied by a 21% increase in lipoprotein lipase (LPL) activity in postheparin plasma and by a 20% increase in cholesteryl ester transfer protein (CETP) activity. Hepatic lipase activity was not changed significantly with insulin. Mean BMI decreased from 28.5+/-4.2 to 28.0+/-3.1 kg/m(2) (P=0.02), which is in keeping with the finding that peripheral insulin levels did not increase and which can be explained by the fact that the insulin regimen was combined with dietary counseling. Accordingly, blood pressure showed no significant change. CONCLUSION: Our study demonstrates that judicious replacement of sulfonylurea treatment with insulin therapy, together with dietary counseling, can result in a simultaneous improvement in the major stigmata of the metabolic syndrome, i.e. a significant improvement in glycemic control and lipid metabolism without unfavorable effects on body weight and blood pressure.
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PMID:Insulin improves fasting and postprandial lipemia in type 2 diabetes. 1206 22

In patients with familial combined hyperlipidemia (FCHL) and type 2 diabetes (DM2) organ-specific differences in insulin resistance may exist. In FCHL and DM2 in vivo insulin mediated muscle glucose uptake and inhibition of lipolysis were studied by euglycemic hyperinsulinemic clamp. Insulin mediated glucose uptake was impaired to the same extent in both FCHL and DM2. Only FCHL subjects showed no reduction in plasma glycerol concentrations during insulin infusion and incomplete suppression of plasma free fatty acid (FFA) concentrations combined. This finding indicated that insulin-induced suppression of lipolysis, or glycerol/FFA utilization, or both, were impaired in FCHL, in contrast to DM2 or control subjects. To analyze these possibilities in more detail, control, FCHL, and DM2 adipocytes were studied in vitro. In contrast to adipocytes from DM2 or control subjects, no reduction in medium FFA concentration was detected with FCHL adipocytes after incubation with insulin. This finding indicated impaired intracellular FFA utilization, most likely impaired FFA re-esterification. Genetic linkage analysis in 18 Dutch families with FCHL revealed no evidence for involvement of LIPE, the hormone sensitive lipase gene, indicating that genetic variation in adipocyte lipolysis by LIPE is not the key defect in FCHL. In conclusion, FCHL as well as DM2 subjects exhibited in vivo insulin resistance to glucose disposal, which occurs mainly in muscle. FCHL subjects showed insulin resistant adipose tissue lipid metabolism, in contrast to DM2 and controls. The different pattern of organ-specific insulin resistance in FCHL versus DM2 advances our understanding of differences and similarities in phenotypes between these disorders.
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PMID:Evidence of insulin resistant lipid metabolism in adipose tissue in familial combined hyperlipidemia, but not type 2 diabetes mellitus. 1220 6

Epidemiological studies clearly indicate that combined oral contraceptives (OCs) increase risks of vascular thromboses. The risk of myocardial infarct is increased by 3 for combined OC users aged 30-39 and by 5 for those aged 40-44. Risks of deep phlebitis and cerebral thromboses are also 5 times greater in OC users. The effects of OCs on serum lipid levels depend on the dose and type of estrogens and progestin. Ethinyl estradiol causes an increase in triglycerides and HDL cholesterol, while progestins tend to increase total cholesterol and decrease HDL cholesterol. Low-dose combined OCs have slight or no effect on cholesterol, HDL cholesterol or triglycerides. Moderately dosed combined OCs elevate triglycerides but their effects on total cholesterol and HDL are moderate. High dose combined OCs increase triglyceride and cholesterol levels. The combined effects of the estrogen and progestin in high dose pills usually increase HDL cholesterol, but there is some doubt as to whether the increase is beneficial. Although all combined OCs have deleterious effects on serum lipids, only persons predisposed to hyperlipidemia are truly at risk. Young women using OCs require systematic control, of serum lipid and lipoprotein levels. Low-dose formulations are generally preferable. Standard or high dosed OCs can cause disturbances of glucose metabolism in predisposed women, but risks of patent diabetes are small. Glucose intolerance developed during pill use is not always reversible. The risk appears more serious with pills containing estranes or norgestrel than with those containing pregnanes. Low-dose pills entail less deterioration than higher dosed pills. Low-dose progestin-only pills also have deleterious effects. OCs interfere with glucose metabolism in part by creating an effect of peripheral insulin resistance and in part by diminishing the insulin-secreting capacities of the islets of Langerhans. All OCs are contraindicated in women with histories of gestational diabetes or glucose intolerance. Insulin-dependent diabetes in adolescents is a relative contraindication. Regular surveillance is required of weight and blood sugar for normal women using OCs. Estrogens have been the major factor identified in variations of coagulation factors and fibrinolysis in OC users. Platelet aggregation has been less well studied. OCs should be avoided in case of hypercoagulative states of platelet hyperaggregation.
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PMID:[Metabolic risks of oral contraception]. 1228 76

The effect of sucrose on Fischer 344 rat liver gamma-glutamyltranspeptidase (gammaGT) was studied: in adults fed sucrose for 3 weeks; and rats exposed to sucrose from the 18th day of gestation to the 40th day after birth. Rats fed regular rodent chow served as controls. Sucrose caused mild lipemia; and in the liver an increase in size and fat build-up without damage. In adult sucrose-fed rats, compared to controls, plasma glucose levels were increased: 1.12-, 1.40- and 1.13-fold after 24, 48h and 3 week consumption of sucrose, respectively. Insulin levels were unaltered for the first week of sucrose consumption but increased from control levels: 16% at 1 week, and 2.0-fold at 3 weeks. The T3 levels were comparable to control levels 24h after the sucrose was started and were increased: 1.22-, 1.13- and 1.12-fold at 48h, 1 and 3 weeks, respectively. The T4 levels were comparable at all time points between sucrose-fed and control rats. Liver gammaGT activity exhibited a steady decrease from control levels: after 24, 48h, 1 and 3 weeks of sucrose feeding the decrease was 5, 8, 21 and 37%, respectively in homogenates; and 10, 17, 24 and 41%, respectively in plasma membranes. Perinatal sucrose exposure effected in 40-day-old rats, compared controls: a 1.09-fold increase in plasma glucose; no change in plasma insulin; an increase of 1.15- and 1.39-fold in plasma levels of total and free T3, respectively; a decrease of 20 and 14% in plasma levels of total and free T4, respectively. gammaGT activity was decreased in liver plasma membranes isolated from sucrose-exposed rats relative to those of control: 80% in the male; 82% in the female. Relative specific activities of gammaGT were the same in both males: 15.4 and 16.1 in control and sucrose-exposed male rats, respectively; and females: 14.1 and 15.4 in control and sucrose-exposed female rats, respectively. gammaGT was 2-fold higher in the livers of female relative to male rats in sucrose-exposed and control groups. Kidney gammaGT activities were the same in control and sucrose-exposed rats. The involvement of T3 in the sucrose-induced decrease in liver gammaGT is discussed.
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PMID:Sucrose feeding effects inhibition of gamma-glutamyltranspeptidase in the liver of the rat: possible mediation by thyroid hormone. 1246 47

Insulin resistant metabolic syndrome is a major clinical disorder including hyperlipidaemia, hypertension, impaired glucose tolerance and/or type 2 diabetes and central obesity, which are well established cardiovascular risk factors. We report the case of a 61-year-old woman who developed severe hypercholesterolaemia and hypertriglyceridaemia after liver transplantation. In her forties she had hypertension, mixed hyperlipidaemia, mild hyperglycaemia and moderate abdominal obesity, suggesting the presence of the metabolic syndrome. She had liver enzyme elevation and severe steatosis and hepatomegaly at ultrasonography. At age 52, cryptogenic liver cirrhosis was diagnosed and rapidly progressing liver failure developed. In 1992 she underwent liver transplantation. Seven years after transplant the patient had abdominal obesity, high blood pressure, marked hypercholesterolaemia, hypertriglyceridaemia and moderate elevation of alanine aminotransferase. She also had impaired glucose tolerance and markedly increased basal and post-glucose load plasma insulin levels. Steatohepatitis was demonstrated by serial liver biopsies. This is the first case that reports the recurrence of the metabolic syndrome following liver transplantation. We postulate that metabolic syndrome may have promoted fatty liver and subsequent progression to end stage liver disease. We also stress the need for careful management of the metabolic syndrome in order to decrease the long-term risk for cardiovascular disease.
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PMID:Recurrence of insulin resistant metabolic syndrome following liver transplantation. 1254 3

It is surprising that only about ten years after the concept of insulin resistance in diabetes mellitus was established, the role of insulin resistance in the development of atherosclerosis has been discussed and clarified. Insulin resistance predisposes the development of glucose intolerance, hyperlipidemia, and hypertension; the cluster of these abnormalities is referred to as multiple risk factor syndrome and it increases the risk of atherosclerosis. A few insulin sensitizers have recently begun to be used in the therapy for diabetic patients. However, the inhibitory effects of these insulin sensitizers against atherosclerosis have not been studied in large-scale clinical trials because these drugs were approved for clinical treatment only several years ago. Accordingly, this review presents a summary of the previous studies on the anti-atherogenic effects of insulin sensitizers by different strategies and provides information on why it is expected that insulin sensitizers will be used as anti-atherogenic drugs.
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PMID:Insulin sensitizers and atherosclerosis. 1256 May 87

Insulin resistance and hyperinsulinemia are the critical characteristics of the metabolic syndrome that is associated with abdominal obesity and are the early manifestations of its progression to type 2 diabetes. These metabolic abnormalities are becoming recognized as a major contributor to cardiovascular disease. The experimental studies required to elucidate the underlying mechanisms and to develop effective preventative strategies will require the use of appropriate animal models and these are available. The evidence from such research indicates that a wide range of interventions (including peroxisome proliferator activator receptor agonists, insulin-sensitizing agents, statins, fibrates, angiotensin-converting enzyme inhibitors, estrogen receptor modulators, lipid-based nutriceuticals, and ethanol) can markedly reduce or prevent vasculopathy and ischemic cardiac lesions in animal models. Overall, the results suggest that early damage to the vascular wall, both in function and presenting as atherosclerotic lesions, is secondary to long-term hyperinsulinemia and, especially, to postprandial peaks in plasma insulin levels, and is exacerbated by the accompanying hyperlipidemia. Effective treatment will, of necessity, be preventative and will necessitate diagnostic approaches that can identify asymptomatic individuals at high risk for vascular damage and eventual progression to type 2 diabetes. Therapeutic targets in this population include insulin sensitivity and the associated signal transduction pathways, the peroxisome proliferator activator receptor-alpha and -gamma systems, and the complex pathways leading from acetyl CoA and the citric acid cycle to the synthesis of fatty acid and the storage of triglyceride. These pharmacological approaches offer the prospect of preventing a significant proportion of cardiovascular disease.
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PMID:Reduction and prevention of the cardiovascular sequelae of the insulin resistance syndrome. 1276 60

Ovarian hyperandrogenism is a common disorder often presenting post menarche with anovulatory oligomenorrhea and signs of androgen excess. Associated hyperinsulinemic insulin resistance, dyslipidemia, and central fat excess herald long-term disease risk. Combined antiandrogen (flutamide 250 mg/d) and insulin-sensitizing (metformin) therapy has beneficial effects, in particular on dyslipidemia and androgen excess in young women. We studied the effects of low-dose flutamide-metformin combination on metabolic variables and body composition in adolescent girls with ovarian hyperandrogenism. Thirty teenage girls (age range, 13.6-18.6 yr) with hyperinsulinemic hyperandrogenism participated in a 12-month pilot study with a 3-month off-treatment phase and a 9-month treatment phase (randomized sequence) on combined flutamide (125 mg/d) and metformin (1275 mg/d). Body composition was assessed by dual-energy x-ray absorptiometry; endocrine-metabolic state and ovulation rate were screened every 3 months. Insulin sensitivity was assessed by homeostasis model assessment (HOMA). Overnight GH and LH profiles were obtained pretreatment and after 6 months on treatment (n = 8). Over the 3-month pretreatment control phase (n = 14) all study indices were unchanged. Flutamide-metformin treatment (n = 30) was followed within 3 months by marked decreases in hirsutism score and serum androgens, by a more than 50% increase in insulin sensitivity and by a less atherogenic lipid profile (all P < 0.0001). After 9 months on flutamide-metformin, body fat decreased by 10%, with a preferential 20% loss of abdominal fat; conversely lean body mass increased, and total body weight remained unchanged; ovulation rate increased from 7-87% after 9 months. Baseline GH hypersecretion and elevated serum IGF-1 normalized after 6 months on flutamide-metformin. Within 3 months post treatment (n = 16), a rebound was observed for all assessed indices. In conclusion, in teenage girls with ovarian hyperandrogenism, low-dose combined flutamide-metformin therapy attenuated a spectrum of abnormalities, including insulin resistance and hyperlipidemia. Improved insulin sensitivity and reduced androgen activity led to a marked redistribution of body fat and lean mass, resulting in a more feminine body shape.
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PMID:Low-dose flutamide-metformin therapy reverses insulin resistance and reduces fat mass in nonobese adolescents with ovarian hyperandrogenism. 1278 62


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