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)

Increased cholesterol levels above 200 mg/dl, LDL levels above 130 mg/dl and total cholesterol/HDL ratio above 4.5 in males and above 5.0 in females are recognized as indicators of increased risk of atherosclerosis. Risk associated to increased triglyceride levels (above 200 mg/dl) must be judged in relation to associated factors such as family history of coronary heart disease, presence of remnants (type III hyperlipidemia), presence of Lp(a), increased levels of Apo B, reduced levels of HDL2 or Apo A1. VLDL and chylomicron remnants and Lp(a) have an atherogenic power in vitro 2 to 4 times that of LDL. There is a correlation between hypertriglyceridemia and reduced HDL2 and Apo A1 levels. Hypertriglyceridemia is frequently associated to other risk factors like diabetes, obesity, hyperinsulinism, and high blood pressure. Finally, VLDL may elevate levels of plasma plasminogen inhibitor. Thus, hypertriglyceridemia should be investigated when, evaluating risk of atherosclerosis.
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PMID:[Cholesterol and triglycerides in atherosclerosis: epidemiologic and physiopathologic considerations]. 184

The JCR:LA-cp rat is a strain carrying the mutant cp (corpulent) gene. Animals that are homozygous cp are hyperphagous, hyperinsulinemic, hyperlipidemic, and obese. Corpulent male rats, but not females or lean rats, develop atherosclerotic lesions and myocardial lesions. Since the myocardial lesions are apparently of ischemic origin, the noradrenergic system and vascular hyperactivity and vasospasm may play a role in the pathogenesis. To test this we have studied the brain contents of the amines norepinephrine, dopamine, and 5-hydroxtryptamine and their breakdown products and depleted the peripheral sympathetic terminals with 6-hydroxydopamine. Only 5-hydroxytryptamine and 5 hydroxyindole-3-acetic acid were present at higher concentrations in the corpulent rats with depressed levels of dopamine in very young or old lean rats. The activity of monoamine oxidase may provide an indication of nonadrenergic activity in tissue. The activity in the heart increased with age and was higher in the corpulent rats than in the lean at all ages. Activity in aorta was independent of age or genotype. Long term treatment with 6-hydroxydopamine caused marked depletion of norepinephrine in the heart with only a slight decrease in brain concentration. There were no effects on the hyperlipidemia or hyperinsulinemia that are strongly associated with vascular and myocardial disease. The myocardial lesion frequency in corpulent rats was not altered by the chemical sympathectomy. The results suggest that norepinephrine and the sympathetic nervous system are probably not involved in the generation of the myocardial lesions or metabolic abnormalities in this strain of rat.
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PMID:Myocardial disease and catecholamine metabolism in JCR:LA-corpulent rat. 189 32

The goals of intensive treatment of type II diabetes are to restore blood glucose levels to normal; correct hyperlipidemia, hypertension, and other cardiovascular risk factors; and prevent hyperinsulinemia. Treatment should begin with attempts to reduce weight through diet and exercise. In fact, diet and exercise should be stressed as vital components of a diabetic patient's life-style no matter what treatment method is used. Drug treatment may consist of a sulfonylurea to increase insulin secretion and improve insulin resistance or of exogenous insulin to achieve glucose control and avoid the dangers of chronic hyperglycemia. A combination of the two appears attractive but is still under investigation. Control of hypertension is mandatory and may require use of an angiotensin-converting enzyme inhibitor or calcium channel blocker. Normalization of serum lipid levels is also important in these patients, and agents that adversely affect glucose levels must be avoided.
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PMID:Intensive management of type II diabetes. 200 Mar 64

The precise pathogenesis of human diabetic kidney disease and the factors responsible for the susceptibility to it remain to be established. However, there is now evidence that renal disease clusters in families and that genetic factors are of central importance in determining liability. A predisposition to arterial hypertension has been suggested as playing a contributory role in the development of kidney disease. Genetically controlled hypertrophic processes may be implicated in the susceptibility to arterial wall damage and glomerular injury in diabetes. This suggestion derives from the observation that the fibroblasts of patients with diabetic nephropathy show a higher Na+/H+ antiport activity and a greater 3H-thymidine incorporation into DNA than fibroblasts of diabetic patients without nephropathy. The first sign of renal damage is the appearance of microalbuminuria and of a small elevation in arterial pressure, changes associated with significant mesangial expansion. Microalbuminuria is associated with abnormalities of lipoprotein profiles possibly as a consequence of insulin-resistance-induced hyperinsulinemia. It could be postulated that the environmental changes brought about by diabetes lead in susceptible individuals to increased systemic and intraglomerular pressure on the one hand and mesangial expansion on the other. These two processes would cause proteinuria and glomerulosclerosis. Lipid abnormalities would further aggravate the renal histological damage and, in combination with hypertension, contribute to the accelerated atherosclerosis typical of patients with diabetic kidney disease. A vicious circle would thus be triggered of reduction in renal function, more hypertension, more proteinuria, more glomerular obsolence, more hyperlipidemia and eventually end-stage renal failure or premature cardiovascular death.
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PMID:Mechanisms of diabetic renal and cardiovascular disease. 207 90

Seventy-one healthy subjects, aged 20 to 60, 19 males and 52 females, body mass index (BMI) 19 to 40, were enrolled in the study. None of them were smokers, or affected by hyperlipidemia, arterial hypertension or impaired glucose tolerance. We measured plasminogen activators inhibitor (PAI) activity, C-peptide levels, plasma fibrinolytic activity. We found a correlation between BMI and plasma fibrinolytic activity (r = -0.382, p less than 0.005), between BMI and PAI (r = 0.353, p less than 0.005), between BMI and C-peptide (r = 0.694, p less than 0.001) and between PAI and C-peptide (r = 0.404, p less than 0.02). Our data show a correlation between obesity and low fibrinolytic activity, probably due to high PAI levels. In obesity impaired fibrinolytic activity, maybe linked to hyperinsulinemia, could induce thrombophilic state.
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PMID:[Relations between overweight, thrombophilia and cardiovascular risk]. 211 69

Recent studies have shown the predictive power of abdominal distribution of adipose tissue for the development of cardiovascular disease, stroke, diabetes as well as strong associations to the previously known risk factors for these endpoints. The reason for the accumulation of abdominal fat might be due to an imbalance between cortisol and sex steroid hormones. Cortisol receptor density seems to be particularly high in abdominal adipose tissue, leading to expression of lipoprotein lipase activity primarily here. Progesterone and testosterone seems to counteract this, the former perhaps through competition with the cortisol receptor. Accumulation of intraabdominal fat, particularly in the tissues drained by the portal circulation, probably leads to high free fatty acid concentrations in the portal vein, because of the high lipolytic sensitivity of these tissues. This in turn seems to inhibit hepatic clearance of portal insulin, leading to peripheral hyperinsulinemia, insulin resistance, perhaps hypertension as well as hyperlipidemia via drive by free fatty acids of lipoprotein synthesis in the liver. These are risk factors for diabetes, cardiovascular disease and stroke. It is of interest that subjects with abdominal adipose tissue have several factors leading to increased cortisol and low sex steroid hormone secretion, including stress, high alcohol consumption and smoking. This might provide some of the background to this syndrome.
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PMID:Obesity and adipose tissue distribution as risk factors for the development of disease. A review. 214 Jan 8

A detailed family history questionnaire collected from families of 35,000 sixteen year old high school students in Utah was used to identify population-bases sibships with two or more living adults affected with hypertension under age 60 or coronary artery disease before age 55. Detailed clinical and biochemical evaluations performed during a four-hour visit to a research clinic provided data to test for concordant abnormalities in siblings with either early hypertension or early coronary heart disease. A new syndrome, familial dyslipidemic hypertension (FDH), was found in 48% of the hypertensive sibships. In these FDH subjects, 68% had HDL-cholesterol below the 10th percentile, 49% had triglyceride level above the 90th percentile, and 27% had LDL levels above the 90th percentile. When compared to normolipidemic hypertensive subjects, persons with FDH had significantly elevated fasting plasma insulin levels, increased subscapular skinfold thickness, increased knee width and wrist circumference, and increased levels of VLDL cholesterol and apolipoprotein B. In coronary sibships, concordant abnormalities for lipids were consistent with familial combined hyperlipidemia in 30-40% of sibships, FDH in 15-45% of sibships, and low HDL-C (with normal cholesterol) in 10%. Concordant normal lipids were found in only 15% of sibships. These data suggest that inherited metabolic abnormalities likely explain some co-aggregation of hyperinsulinemia, obesity, hypertension, and early coronary heart disease. Current knowledge also suggests these metabolic abnormalities could be treated or prevented with appropriate modification in lifestyle factors such as diet and exercise as well as through the use of prescription medications.
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PMID:Concordant dyslipidemia, hypertension and early coronary disease in Utah families. 218 41

Insulin resistance is one of pathogenic factors for non-insulin-dependent diabetes mellitus (NIDDM). Pioglitazone (5-[4-[2-(5-ethyl-2-pyridyl)-ethoxy]benzyl]-2,4-thiazolidinedione, AD-4833, also known as U-72, 107E) is a promising candidate to lower hyperglycemia by reducing insulin resistance. The genetically obese-hyperglycemic rats. Wistar fatty, were used to test the action of pioglitazone, because they develop severe insulin resistance in the peripheral tissues (muscle and adipose tissue) and liver. Pioglitazone administered orally (0.3-3 mg/kg/d for 7 days) dose dependently reduced hyperglycemia, hyperlipidemia, and hyperinsulinemia in male fatty rats. Pioglitazone improved glucose tolerance and augmented the glycemic response to exogenous insulin and clearance of plasma triglyceride. These effects on glucose and lipid metabolism seem to be due to increased insulin sensitivity and responsiveness in the peripheral tissues, because pioglitazone increased insulin-stimulated glycogen synthesis and glycolysis in the isolated soleus muscles, and insulin-stimulated glucose oxidation and lipogenesis in adipocytes. The latter effects were not accompanied by any changes in insulin binding. The actions of insulin mimickers (vanadate and vitamin K5), which act on the post-insulin binding sites, on these metabolic events were also potentiated by pioglitazone. These findings suggest that pioglitazone can improve glucose and lipid metabolism by reducing insulin resistance on the post-binding system. Therefore, pioglitazone may be efficacious for treating human NIDDM.
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PMID:Effects of pioglitazone on glucose and lipid metabolism in Wistar fatty rats. 218 19

Male rats of the JCR:LA-corpulent strain spontaneously develop atherosclerosis and myocardial lesions if corpulent. The corpulent rats exhibit a marked very low density hyperlipidemia and insulin resistance. The incidence of both vascular and myocardial lesions correlates strongly with the hyperinsulinemia, but not with the hyperlipidemia. Corpulent male rats were chronically treated with nifedipine or acetylsalicylic acid to explore the roles of smooth muscle spasm and platelet activity in induction of the myocardial lesions. Acetylsalicylic acid treatment was associated with no significant changes in fasting glucose, insulin, or lipid concentrations. Nifedipine caused no significant changes in glucose concentration but was associated with mildly increased insulin levels. Treatment with nifedipine resulted in significant decreases in serum triglyceride concentrations. The decreases were confined to longer-chain triacylglycerol molecular species with no change in the concentration of molecular species with 48 or 50 acyl carbon atoms. There was no effect on myocardial lesion frequency with acetylsalicylic acid treatment. In contrast, nifedipine prevented the development of old organized scarred lesions. This effect is similar to that seen with treatments that markedly reduce the insulin resistance. These findings suggest that platelet-initiated thrombus formation is not an important factor in lesion formation in the JCR:LA-cp rat, but that smooth muscle spasm is probably important.
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PMID:Prevention of myocardial lesions in JCR:LA-corpulent rats by nifedipine. 219 41

Hypertension and diabetes mellitus are chronic medical conditions that frequently coexist. In the United States, it is estimated that 10 million persons suffer from diabetes mellitus, 60 million from hypertension, and 3 million from the combination of the two. There may be a causal relationship between hypertension and diabetes. Obesity may be a precipitating factor for both hypertension and non-insulin-dependent diabetes mellitus. Those with insulin-dependent diabetes mellitus generally become hypertensive only with the onset of nephropathy. Glucose tolerance, insulin resistance, and hyperinsulinemia frequently occur with essential hypertension and may be aggravated by hypertension therapy, especially with diuretics and beta-blockers. Hyperinsulinemia may be an important common factor promoting sodium retention, sympathetic nervous system stimulation, and inhibition of the sodium pump. The Working Group on Hypertension in Diabetes has outlined a flexible modified version of the stepped-care approach to the treatment of hypertension in diabetes. Management is complex because diabetes is associated with autonomic neuropathy, sexual dysfunction, hyperlipidemia, and fluid and electrolyte disorders. All these problems can be exacerbated by antihypertensive treatment. Nonpharmacologic measures, which address weight reduction and sodium restriction, are logical, but aggressive antihypertensive medication is invariably necessary. Diuretics and/or beta-blockers were the mainstay of treatment until the introduction of angiotensin-converting enzyme (ACE) inhibitors and calcium channel blockers. These newer agents have no deleterious effects on carbohydrate metabolism and are generally better tolerated. Antihypertensive therapy may slow the rate of deterioration in diabetic nephropathy. This was first shown with diuretics, beta-blockers, and hydralazine and more recently with ACE inhibitors, which provide effective blood pressure control and a significant drop in albuminuria without affecting the glomerular filtration rate adversely. ACE inhibition may also lead to increased insulin sensitivity and glucose disposal rate. Long-term trials are needed to assess the effects of these new agents on the treatment of hypertension in the diabetic population.
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PMID:Diabetes mellitus and hypertension. 222 Jul 97


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