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)

Fourteen male patients (mean age +/- SD, 52 +/- 11 years) with a history of hypertension (systolic blood pressure, 148 +/- 10 mm Hg; diastolic blood pressure, 99 +/- 2 mm Hg) were enrolled in a cross-over trial of prazosin and atenolol, with a minimum of eight weeks of treatment with each drug. Measures of lipoprotein metabolism included levels of: total plasma cholesterol, triglycerides, low-density lipoprotein cholesterol, high-density lipoprotein cholesterol, and high-density lipoprotein2 cholesterol. Lipoprotein mass was measured by analytical ultracentrifugation in low-density to very low-density lipoprotein flotation rate intervals of 0 to 12, 12 to 20, and 20 to 400, and high-density lipoprotein flotation rate intervals of 0 to 3.5 and 3.5 to 9.0. Apolipoproteins A1 and B, postheparin lipoprotein and hepatic lipase activities, and magnitude of postprandial lipemia also were determined. Mass of intermediate-density lipoproteins (flotation rate, 12 to 20) was significantly lower (p = 0.05) following prazosin therapy compared with atenolol therapy. Other lipid parameters, including triglycerides and low- and high-density lipoprotein cholesterol, were not significantly different for the two drug treatments.
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PMID:Effect of alpha- and selective beta-blockade for hypertension control on plasma lipoproteins, apoproteins, lipoprotein subclasses, and postprandial lipemia. 291 69

Apoprotein, lipoprotein and lipid parameters of 36 normolipidemic subjects (23 males, mean age 22.7 +/- 7.6 years; 13 females, mean age 26.2 +/- 9.8 years) receiving oral isotretinoin (mean daily dose 0.73 +/- 0.26 mg/kg body weight) for nodulocystic acne (n = 18), severe acne papulopustulosa (n = 15), gram-negative folliculitis (n = 2) and papulopustular rosacea (n = 1) were monitored before and during isotretinoin therapy at biweekly intervals over a period of 14.6 +/- 5.6 weeks. Pretreatment values of mean plasma triglycerides increased significantly (p less than 0.001) from 81.8 +/- 31.9 mg/dl to 112.4 +/- 38.7 mg/dl (47.4%) during isotretinoin treatment. With respect to the mean percent increase of plasma triglycerides from pretreatment levels, patients were classified as nonresponders (less than 10% triglyceride increase), responders (greater than 10% less than 50% triglyceride increase) and hyperresponders (greater than 50% triglyceride increase), revealing a distribution of 25.0, 36.1 and 38.9%, respectively. Isotretinoin treatment had no influence on the isoelectric focusing pattern of apoprotein E isoforms and C apoproteins. In particular, apoprotein C-II, the cofactor of lipoprotein lipase, was not affected. No correlation between apoprotein E phenotypes (2/3, 3/3, 3/4) and the mean plasma triglyceride increase could be demonstrated. Apoprotein B-48, a marker of chylomicrons and atherogenic chylomicron remnants, could not be detected by SDS-PAGE. On the other hand in 21.0% of patients with preexisting mean lipoprotein Lp(a) levels of 18.1 +/- 12.9 mg/dl a moderate increase of atherogenic Lp(a) to mean levels of 37.0 +/- 22.0 mg/dl was observed. Pretreatment values of very-low-density lipoprotein (VLDL) apoprotein (apo) B (7.5 +/- 2.0 mg/dl), low-density lipoprotein apo B (67.3 +/- 17.5 mg/dl) and total plasma apo B (76.6 +/- 19.0 mg/dl) increased significantly to levels of 10.3 +/- 2.4 mg/dl (p less than 0.001), 75.7 +/- 15.8 mg/dl (p less than 0.10) and 85.9 +/- 17.7 mg/dl (p less than 0.05), respectively. As lipoprotein lipase and hepatic lipase activities have been shown to be unaffected by isotretinoin treatment, our data support the hypothesis that isotretinoin induces hepatic oversecretion of VLDL, a condition resembling type IV hyperlipidemia in diabetics, familial hypertriglyceridemia of familial combined hyperlipidemia.
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PMID:Characterization of apoprotein metabolism and atherogenic lipoproteins during oral isotretinoin treatment. 296 29

The effects of lipid lowering therapy (bezafibrate) on plasma lipoproteins was investigated in twelve patients with familial hypercholesterolaemia (type IIA) and eight with familial combined hyperlipidaemia (type IIB). Bezafibrate caused a decrease of plasma cholesterol, plasma triglycerides, plasma apolipoprotein B, VLDL cholesterol and LDL cholesterol and an increase of HDL cholesterol. Post-heparin plasma lipoprotein and hepatic lipase activities increased in both groups (significant only in type IIB). Lipoprotein composition showed the following changes: Increased protein and phospholipids and decreased triglycerides and cholesteryl esters in VLDL. Decreased protein and triglycerides and increased free and esterified cholesterol in LDL. Decreased triglycerides and increased phospholipids in HDL. Cholesteryl ester to protein ratios decreased in VLDL and increased in LDL. The hydrated density of LDL (both groups) and of HDL3 (type IIB) decreased following bezafibrate therapy. These changes were in general similar to those observed in hypertriglyceridaemic patients and could be ascribed, at least in part, to the increase of plasma lipase activities and the decrease of lipid transfer reactions. Comparing the present data with that previously reported, it was found that bezafibrate caused decreased LDL cholesterol in types IIA and IIB but increased levels in type IV. This change was correlated with the initial plasma triglycerides (r = 0.74, P less than 0.0001) and initial plasma LDL cholesterol (r = 0.66, P less than 0.001). It is concluded that varied response of LDL to therapy reflects a complex interaction of metabolic events, including changing rates of VLDL conversion to LDL, lipoprotein compositional changes and effects of therapy on LDL degradation rates.
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PMID:Change in very low-, low-, and high-density lipoproteins during lipid lowering (bezafibrate) therapy: studies in type IIA and type IIb hyperlipoproteinaemia. 308 75

A 36-year-old woman was treated with tamoxifen for lung metastasis of breast cancer and had marked hyperlipoproteinemia with giant fatty liver, high plasma triglyceride levels (3673 mg/dl), and increased levels of very low density lipoprotein (VLDL) and intermediate density lipoprotein (UDL). A low level of activity of both plasma lipoprotein lipase (LPL) and hepatic triglyceride lipase (HTGL) was also noted. Our observations support the concept that, in some patients, the weak estrogen-like activity of tamoxifen is amplified and, in severe lipemia, reduction of the activities of LPL and HTGL might impede the conversion of VLDL to LDL, thus causing the amplification of the effect.
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PMID:[A case report of hyperlipemia with giant fatty liver during adjuvant endocrine therapy by tamoxifen]. 310 57

Plasma lipolytic activity (lipoprotein lipase and hepatic lipase), free fatty acids (FFA), triglycerides, cholesterol, and glucose levels were measured in 21 premature infants [gestational age 26-37 weeks (mean +/- SEM 30.4 +/- 0.63 weeks), aged 1-8 days (mean +/- SEM 3.00 +/- 0.35 days)]. All infants were maintained on total parenteral nutrition with heparin (1 U/ml) and were given Intralipid, 1, 2, and 3 g/kg/day, over 15 h on days 1, 2, and 3, respectively. Blood samples were drawn before and at the end of Intralipid administration. Baseline plasma lipolytic activity, before the start of lipid infusion, was 1.54 +/- 0.24 U/ml (1 U = 1 mumol [3H]oleic acid released from tri[3H]olein/h). Lipolytic activity increased after lipid infusion to 4.04 +/- 0.96, 4.32 +/- 0.63, and 6.09 +/- 1.00 U/ml on days 1, 2, and 3 of the study. Hepatic lipase amounted to 38-47% of total lipolytic activity. During the 3 days of lipid infusion, there were dose-dependent increases in plasma FFA, triglyceride, and cholesterol. Whereas FFA and triglyceride concentrations returned to prelipid infusion levels 9 h after stopping the infusion of Intralipid, 1, 2, or 3 g/kg, there was a cumulative increase in plasma cholesterol and glucose concentrations. The close correlation between FFA concentrations and plasma lipolytic activity (r = 0.655, p less than 0.001) suggests considerable intravascular lipolysis. The positive correlation between plasma FFA and triglycerides (r = 0.632, p less than 0.001) and FFA and cholesterol (r = 0.582, p less than 0.001) indicate, however, that intravascular lipolysis does not prevent the lipemia associated with Intralipid infusion to low birth weight infants.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Total parenteral nutrition with intralipid in premature infants receiving TPN with heparin: effect on plasma lipolytic enzymes, lipids, and glucose. 312 35

Long chain n-3 fatty acids present in fish oils have been shown to reduce fasting plasma triglyceride and very low density lipoprotein levels in normal and hyperlipidemic human subjects. The present studies were designed to examine whether dietary n-3 fatty acids influence chylomicron formation and metabolism in healthy volunteers. In the first study seven subjects were fed either saturated fat, vegetable oil, or fish oil-based diets for 4 weeks each, and test meals containing 50 g of the background fat were administered after the second week of each diet. The postprandial rise in triglyceride levels was significantly lower following the fish oil test meal as compared to the saturated fat or vegetable oil test meals. In the second study, six subjects eating their usual home diets were given two fat tolerance tests. The first contained saturated fat and the second, given 1 week later, contained fish oil. There was no difference in the postprandial triglyceride response between the fish oil and the saturated fat meals. A third study was then conducted with eight volunteers in which saturated fat and fish oil test meals were administered during saturated fat and fish oil background diets in a crossover design. The presence of fish oil in the background diet reduced postprandial lipemia regardless of the type of fat in the test meal. Although there was no effect of the fish oil diet on the lipoprotein lipase and hepatic lipase activity of postheparin plasma measured in vitro, stimulation of in vivo lipolysis was not ruled out. Our results suggest that chronic (but not acute) intake of fish oil may inhibit the synthesis or secretion of chylomicrons from the gut. However, accelerated clearance due to decreased VLDL competition cannot be excluded.
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PMID:Reduction of postprandial triglyceridemia in humans by dietary n-3 fatty acids. 324 Nov 21

We investigated the effects of omega-3 fish oil (FO) supplementation on lipid metabolism, glycemic control, and blood pressure (BP) in patients with type II diabetes mellitus. In 22 diabetic patients without overt hyperlipidemia, serum triglyceride, total cholesterol, high density lipoprotein (HDL)-cholesterol, HDL2-cholesterol, HDL3-cholesterol, and apolipoprotein A-I (apo A-I) levels did not change during omega-3 FO supplementation for 8 weeks. The mean serum apo B concentration increased significantly [baseline, 2.56 +/- 0.11 (+/- SEM) mmol/L; 4 weeks, 2.82 +/- 0.13 mmol/L; 8 weeks, 2.80 +/- 0.13 mmol/L; P less than 0.01]. The mean plasma postheparin lipoprotein lipase activity increased transiently during the fourth week (baseline, 168 +/- 17 U/mL; 4 weeks, 182 +/- 18 U/mL; P less than 0.05), whereas postheparin hepatic triglyceride lipase activity did not change. Glycemic control worsened transiently during the fourth week, (baseline, 7.7 +/- 0.4%; 4 weeks, 8.4 +/- 0.3%; P less than 0.05). Both systolic and diastolic BP decreased significantly throughout the study (systolic BP: baseline, 142 +/- 5 mm Hg; 8 weeks, 128 +/- 5 mm Hg; diastolic BP: baseline, 88 +/- 4 mm Hg; 8 weeks, 80 +/- 3 mm Hg; P less than 0.01). These findings suggest that in type II diabetics without overt hyperlipidemia, omega-3 FO supplementation does not improve either the glycemic control or serum lipids, and it is associated with a potentially detrimental rise in serum apo B concentrations. Until more information is available, use of such supplementation should be discouraged.
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PMID:Effects of omega-3 fish oils on lipid metabolism, glycemic control, and blood pressure in type II diabetic patients. 337 25

Patients treated with corticosteroids often have a dyslipoproteinemia characterized by elevated plasma levels of triglyceride and low density lipoprotein cholesterol and/or decreased levels of the high density lipoprotein2 fraction of high density lipoprotein cholesterol. This study was undertaken to determine if such patients also have elevated apolipoprotein-B (apoB) levels and/or abnormalities of the activities of the triglyceride lipases in postheparin plasma. Plasma lipoprotein levels and the postheparin activities of hepatic lipase and lipoprotein lipase were measured in 28 women with systemic lupus erythematosus (SLE) who were treated with prednisone, 10 women with SLE not treated with prednisone, and 15 normal women. The prednisone-treated group had higher mean plasma levels of triglyceride [2.06 +/- 1.3 (+/- SD) vs. 1.15 +/- 0.35 and 0.95 +/- 0.46 mmol/L; P less than 0.01], low density lipoprotein cholesterol [3.41 +/- 1.4 (+/- SD) vs. 2.79 +/- 0.67 and 2.84 +/- 0.70 mmol/L; P less than 0.01], and apoB [1.16 +/- 0.35 (+/- SD) vs. 0.82 +/- 0.13 and 0.76 +/- 0.22 g/L] than the other 2 groups. Forty-three percent of the prednisone-treated group had apoB levels of 1.20 g/L or more compared to 7% of normal subjects and none of the untreated SLE group (P less than 0.05). However, of the 12 prednisone-treated patients with elevated plasma apoB levels 5 had normal plasma lipid levels. There were no differences in the postheparin lipase activities among the 3 groups. These data indicate that corticosteroid-treated patients have elevations in apoB as well as hyperlipidemia. The lipoprotein abnormalities may explain the increased risk of atherosclerosis reported in these patients.
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PMID:Elevated apolipoprotein-B levels in corticosteroid-treated patients with systemic lupus erythematosus. 341 Sep 32

There is much evidence that altered lipid metabolism contributes to the development of coronary artery disease (CAD). It is generally accepted that there is a direct association between the extent of CAD and total plasma cholesterol, as well as an inverse association between the extent of CAD and plasma HDL-cholesterol. No general agreement exists about the atherogenetic potential of plasma triglycerides and of triglyceride-rich lipoproteins. Since lipoprotein lipase (LPL) is the key-enzyme in the catabolism of triglyceride-rich lipoproteins (chylomicrons and very low-density lipoproteins), we examine the relationship between triglyceride-rich lipoproteins and LPL in vitro and in vivo. The concentrations of the main lipoprotein density classes, namely very low-density lipoproteins (VLDL), intermediate-density lipoproteins (IDL), low-density lipoproteins (LDL), high-density lipoproteins2 (HDL2) and HDL3, are measured by rate zonal ultracentrifugation. The preparation of VLDL, IDL, LDL, HDL2, and HDL3 is performed by sequential ultracentrifugation. The activity of LPL is measured radioenzymatically in a glycerol-based triolein emulsion. It can be demonstrated in vitro that VLDL, IDL, and HDL2 from normal plasma are able to increase LPL-activity in contrast to VLDL, IDL, and HDL2 from hyperlipemic plasma. This difference seems to be caused by an altered composition of apolipoproteins in hyperlipemic lipoproteins. An artificial acidosis in three healthy subjects shows in contrast to alkalotic and neutral blood-pH a significant decrease of LPL-activity. This result seems to be of some interest, since diseases associated with acidotic blood-pH, such as chronic renal disease, diabetes mellitus or chronic alcoholism, show secondary hyperlipemias caused by a deficit of LPL-activity. It can be shown in 15 male patients who produce a secondary type-V hyperlipemia during severe abuse of alcohol, that LPL-activity is decreased significantly as compared to 15 healthy controls. During sober phases, this alcohol-induced hyperlipemia and the impairment of LPL-activity disappears completely. In an other group of 8 male patients, who are not producing severe secondary hyperlipemia during approximately the identical alcohol intake, LPL-activity is also significantly decreased, but the activity of hepatic lipase is significantly increased. This increase of the activity of hepatic lipase seems to protect these patients from the development of secondary type-V hyperlipemia. In 89 male patients with angiographically assessed CAD a very strong inverse association between the activity of LPL and the extent of CAD is found.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Pathologic decrease in lipoprotein lipase activity in relation to the development of hyperlipemias and their significance for coronary heart disease]. 345 43

To study exogenous fat metabolism, we used the vitamin A-fat loading test, which specifically labels intestinally derived lipoproteins with retinyl palmitate (RP). Postprandial RP concentrations were followed in total plasma, and chylomicron (Sf greater than 1,000) and nonchylomicron (Sf less than 1,000) fractions. In normal subjects postprandial lipoproteins were present for more than 14 h, and chylomicron levels correlated inversely with lipoprotein lipase activity and fasting high density lipoprotein (HDL) cholesterol levels and nonchylomicron levels correlated inversely with hepatic triglyceride lipase activity. The main abnormality in type IV patients was a 5.6-fold increase in the chylomicron fraction, whereas in type III patients it was a 6.4-fold increase in nonchylomicrons. Type IIa patients had abnormally low chylomicron fractions. In type IV patients gemfibrozil decreased, whereas in type IIa patients cholestyramine increased the chylomicron fraction 66 and 88%, respectively. This study demonstrates an unexpectedly large magnitude and long duration of postprandial lipemia in normal subjects and patients. These particles are potentially atherogenic, and their role in human atherosclerosis warrants further study.
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PMID:Different patterns of postprandial lipoprotein metabolism in normal, type IIa, type III, and type IV hyperlipoproteinemic individuals. Effects of treatment with cholestyramine and gemfibrozil. 347 Mar 6


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