UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effects of testosterone substitution on serum concentrations of lipids, lipoproteins, apoproteins and on the activity of hepatic lipase (HL) and lipoprotein lipase (LPL) in postheparin plasma and on the activity of LPL in adipose tissue (AT-LPL) in 13 male hypopituitary patients. The activities of LPL and HL in postheparin plasma were markedly increased by 1 week after a testosterone enanthate injection (P less than 0.001). The HL activity remained elevated (P less than 0.05) after 1 month's treatment, but the LPL activity declined to presubstitution levels. The prolonged substitution decreased serum apoproteins A-I and A-II (P less than 0.05). The changes of apo A-I and A-II correlated inversely with those of the free testosterone index (FTI) (r = -0.74, r = -0.67, P less than 0.05). Serum HDL-cholesterol level decreased slightly by 1 week and it correlated inversely with the increase in testosterone and the FTI (r = -0.67, r = -0.85, P less than 0.05). The results suggest that testosterone increases the activity of both lipolytic enzymes in postheparin plasma. The effect on HL appears to be more persistent than that on LPL. The data support a role for androgens in the regulation of serum lipoprotein and HDL-cholesterol levels.
Atherosclerosis 1988 Feb
PMID:Testosterone substitution increases the activity of lipoprotein lipase and hepatic lipase in hypogonadal males. 312 49

With the advent of nocturnal intragastric feeding which protects against acute metabolic complications and promotes growth, patients with glycogen storage disease type I are attracting less attention. However, several biochemical alterations persist and suggest that the long-term risk of atherosclerotic heart disease remains high. Persisting hypertriglyceridemia and hypercholesterolemia were found in seven glycogen storage disease type I subjects, six of them following 5-6 yr of nocturnal intragastric feeding. When compared to ten age-matched controls, the patients showed significantly (P less than 0.001) higher low density lipoprotein cholesterol (LDL-C) (247.7 +/- 46.8 vs. 115.3 +/- 5.0 mg/dl) and lower high density lipoprotein cholesterol (HDL-C) (26.4 +/- 3.4 vs. 55.8 +/- 2.9 mg/dl). Triglyceride (TG) enrichment with cholesteryl ester depletion characterized the lipoprotein classes. The diameters of very low density lipoproteins (VLDL) and LDL were larger, while that of HDL was smaller and consistent with the predominance of the HDL3 subclass and a lower apoA-I/apoA-II ratio. The raised levels of TG appeared attributable not only to the well-described lipogenesis, but also to impaired catabolism of fat, as evidenced by the significantly (P less than 0.001) decreased activity of both peripheral lipoprotein lipase (3.17 +/- 0.43 vs. 14.15 +/- 0.50 mumol FFA.ml-1.hr-1) and hepatic lipase (1.88 +/- 0.30 vs. 4.83 +/- 0.90). This may well explain the high concentration of intermediate density lipoprotein (IDL) and the impaired conversion of HDL3 to HDL2. Low apoC-II/apoC-III1 could be related to defective lipoprotein lipase activity. These data suggest that glycogen storage disease type I patients on nocturnal intragastric feeding remain at risk for atherosclerosis and its complications.
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PMID:Circulating lipids and lipoproteins in glycogen storage disease type I with nocturnal intragastric feeding. 313 Apr 54

Thirty postmenopausal women were randomly treated with desogestrel (DG) or levonorgestrel (LN) 125 micrograms/day for 3 weeks. Desogestrel reduced the serum total and free (non-protein bound) testosterone concentrations. It caused a small decrease in the sex hormone binding globulin capacity (SHBG) but did not influence the free testosterone index (testosterone/SHBG ratio). Levonorgestrel, on the other hand, did not influence the free testosterone concentration, but caused a significant increase in the free testosterone index. Levonorgestrel reduced the HDL and particularly the HDL2 cholesterol concentrations (mean change from 1.75 to 1.45 mmol/l for HDL and from 0.73 to 0.50 mmol/l for HDL2, P less than 0.001). It also caused a reduction in the VLDL triglyceride (P less than 0.05) but not the total serum triglyceride concentration. Desogestrel did not cause any significant changes in HDL or HDL2 cholesterol concentrations, but it reduced the VLDL triglyceride (P less than 0.01) and total serum (P less than 0.05) triglyceride concentrations. Neither of the two progestins influenced the postheparin plasma lipoprotein lipase (LPL) activity or the serum cholesterol esterification rate by lecithin:cholesterol acyltransferase (LCAT). It is therefore possible that both steroids decreased the hepatic output of triglycerides, which may be clinically important since both progestins are used in combination with ethinylestradiol (EE) which increases the hepatic TG synthesis. The failure of desogestrel to change HDL levels is consistent with earlier data on the lack of effects on HDL by non-androgenic progestins. Levonorgestrel increased the mean activity of postheparin plasma hepatic lipase (HL) from 23.3 to 28.0 mumol X h-1 X ml-1 (P less than 0.05). In contrast, this activity was not influenced by desogestrel. The magnitude of the changes in postheparin plasma HL activity and the free testosterone index (testosterone/SHBG ratio) showed significant positive correlation (+ 0.41, P less than 0.05). On the other hand, the changes in the HDL2 cholesterol and the postheparin plasma HL activity were inversely interrelated (r = 0.52, P less than 0.01). These relationships are consistent with the idea that the effects of different progestins on the HDL cholesterol are mediated by the sex steroid sensitive hepatic endothelial lipase.
Atherosclerosis 1985 Mar
PMID:Effects of two progestins with different androgenic properties on hepatic endothelial lipase and high density lipoprotein2. 315 21

The independent roles of human lipoprotein lipase (LPL) and hepatic triglyceride lipase (HTGL) in determining the distribution of apolipoprotein E (apo E) among the plasma lipoproteins has been studied in vitro. In one series of three studies, postheparin plasma (10%) was incubated for 2 h with autologous plasma and the changes in the lipoprotein association of apo E after lipase exposure were determined after lipoprotein fractionation on 4% agarose columns. Specificity for LPL or HTGL was achieved by inhibition with goat anti-human HTGL or with 1 M NaCl, respectively. In another study, LPL and HTGL were partially purified from human postheparin plasma. The independent effects of these enzymes on the lipoprotein association of apo E were then examined after incubation of plasma in the absence or presence of one or both lipases. Data from both types of in vitro study showed that LPL-mediated triglyceride hydrolysis in the absence of HTGL activity was accompanied by a loss of apo E from triglyceride-rich lipoproteins, a gain or no change in the apo E-containing lipoproteins the size of intermediate density lipoproteins (IDL) and inconsistent changes in the apo E mass associated with high density lipoproteins (HDL). HTGL activity, on the other hand, in the absence of LPL, resulted in a redistribution of apo E from lipoproteins the size of IDL and a gain by those of HDL size. These studies thus support previous in vivo studies which pointed toward a specific role for HTGL in the processing of apo E containing IDL.
Atherosclerosis 1988 Sep
PMID:Effect of lipoprotein lipase and hepatic triglyceride lipase activity on the distribution of apolipoprotein E among the plasma lipoproteins. 317 31

Two separate studies were carried out with acipimox, a new antilipolytic agent with long-lasting activity. First, in a randomized, double-blind, cross-over study a dose of 750 mg/day of acipimox versus placebo was employed for 60 days in 11 patients with type IV hyperlipoproteinemia. Mean plasma triglyceride levels were reduced after acipimox compared to placebo (434 +/- 60 vs 777 +/- 224 mg/dl, P less than 0.01). Serum total cholesterol fell also significantly after acipimox compared to placebo. No significant alteration was observed in the HDL2/HDL3 ratio or in the concentration or composition of the HDL subfractions. Six patients with severe hypertriglyceridemia (2 type IV and 4 type V) and low lipoprotein lipase (LPL) activity took part in a second, open study, lasting for 9 months. Acipimox was given at a dose of 750 mg/day for the first 6 months and 1200 mg/day for the last period. The response of serum total and VLDL triglycerides was inconsistent. HDL cholesterol was significantly raised (+33.3%) after 9 months of treatment due to changes of HDL2 and HDL3 cholesterol, phospholipid and protein concentrations. LPL activity was markedly reduced in adipose tissue at 9 months. No significant changes occurred in postheparin plasma LPL activity. In contrast, hepatic lipase activity showed a reduction of about 25% from 6 months of treatment onwards.
Atherosclerosis 1988 Feb
PMID:Effects of acipimox on serum lipids, lipoproteins and lipolytic enzymes in hypertriglyceridemia. 327 68

To characterize the lipoprotein metabolism of lipid-filled cells of atherosclerotic lesions, uptake of 3,3'-dioctadecylindocarbocyanine (DiI)-labelled low density lipoprotein (LDL), acetylated LDL (Ac-LDL) and beta-very low density lipoprotein (beta-VLDL) was studied by fluorescence microscopy and flow cytometry in primary cultures of enzymatically dispersed aortic cells from cholesterol-fed rabbits. Most of the foam cells were identified as macrophages on the basis of Fc-receptors and high activities of nonspecific esterase and acid lipase, although cholesteryl ester (CE) inclusions were found by filipin staining also in smooth muscle cells (SMCs). During the culture only SMCs proliferated and were confluent in about 1 week. After incubation with DiI-Ac-LDL most macrophage foam cells were brightly fluorescent, but also many SMCs accumulated fluorescence. In SMCs, an excess of LDL inhibited the uptake of DiI-beta-VLDL and DiI-LDL, indicating that these lipoproteins were taken up by the apoB,E receptor; the activity of this receptor was low 2 days after cell isolation but increased considerably during SMC proliferation. DiI-beta-VLDL was not taken up by the macrophage foam cells until after 7 days' culture, when their CE content had decreased, reflecting a feed-back regulation of these receptors as well. Our results indicate that, in primary cultures of enzyme-dispersed cells from rabbit atherosclerotic lesions, most of the foam cells have lipoprotein receptors resembling those described in macrophages and that also many SMCs accumulate Ac-LDL.
Atherosclerosis 1988 Feb
PMID:Lipoprotein uptake in primary cell cultures of rabbit atherosclerotic lesions. A fluorescence microscopic and flow cytometric study. 334 44

Eight male, normolipidemic, non-obese subjects were given fenofibrate (F) (300 mg daily) for eight days (period F). After a wash-out period of four weeks, phenobarbital (P) (100 mg daily) was given for eight days (period P). At the end of this period, P was continued at the same dosage but F (300 mg daily) was added and both drugs were given simultaneously for a further eight-day period (period P + F). The plasma concentrations of lipids and the plasma activities of enzymes involved in the interconversion of plasma lipoproteins: lipoprotein lipase (LPL), hepatic lipase (HL) and lecithin: cholesterol acyltransferase (LCAT) were measured before and at the end of each period of treatment. Fenofibrate induced a decrease in the plasma concentration of triglycerides (TG), total cholesterol (TC), apoB and an increase in the plasma activities of LPL and LCAT. Phenobarbital induced a decrease in the plasma concentration of TC, HDL-C and LDL-C (with an unchanged HDL-C/LDL-C ratio) and in the plasma activity of LPL. Addition of P to F did not modify the hypolipidemic action of F but the increase of LPL activity during period P + F was found to be greater than that observed during period F. It is concluded that P does not modify the serum lipoprotein pattern in a way which can be considered as beneficial in terms of atherosclerosis. By measuring the serum concentration of unconjugated bilirubin, the plasma clearance of antipyrine and the urinary excretion of 6 beta-hydroxycortisol as parameters of hepatic microsomal induction, F appeared to be a slight inducer as compared with P. Thus, enzyme induction cannot explain the changes in serum lipoproteins induced by P and does not modify the hypolipidemic action of F.
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PMID:Changes in plasma activities of lipolytic enzymes and lipids of normolipidemic subjects given phenobarbital, a strong microsomal inducer, alone or in combination with fenofibrate. 341 May 96

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

In order to assess the possible utility of lectin binding to identify the cellular components of fixed arterial lesions we studied lectin binding in experimental rabbit and monkey vessels, as well as in human atherosclerotic arteries obtained at surgery. The avidin-biotin-peroxidase technique was used to localize the binding of the following biotinylated lectins: Concanavalin A (Con A), Dolicho biflorus agglutinin (DBA), soybean agglutinin (SBA), peanut agglutinin (PNA), Phaseolus vulgaris agglutinin (PHA), Ricinus communis agglutinin (RCA), wheat germ agglutinin (WGA), and Ulex europaeus agglutinin (UEA). PHA demonstrated specific cytoplasmic staining of macrophages in rabbit, monkey, and human tissues and differentiated macrophages from other cell types in atherosclerotic lesions. When morphometric comparisons were made between lesion PHA staining and another macrophage marker, acid lipase, very similar results were obtained. Con A, RCA, and WGA stained macrophages intensely and differentiated them from other cell types in normal reticuloendothelial tissues and lesions, but also stained smooth muscle cells and endothelial cells when these cells developed lipid vacuoles. UEA stained the endothelium of vasa vasorum consistently in human arteries, but staining of artery lumen endothelium was variable. Endothelial cells of rabbit or monkey vessels did not stain with UEA. DBA, PNA, and SBA did not consistently stain any cellular structures in arteries. PHA was found to be an excellent marker to differentiate and quantify macrophages in glutaraldehyde or formalin-fixed, paraffin-embedded experimental and human atherosclerotic lesions. Con A, RCA and WGA merit further detailed study in conjunction with other histochemical tests as possible markers of functional changes in arterial cells during lesion development.
Atherosclerosis 1986 Sep
PMID:Lectin binding to distinguish cell types in fixed atherosclerotic arteries. 353 93

There is a very high probability that lipoprotein metabolism plays a central role in the etiology of coronary heart disease. In sedentary persons one way to favorably alter lipoprotein metabolism and possibly delay the progression of coronary atherosclerosis is by an increase in their habitual physical activity. More physically active persons tend to have lower plasma triglycerides and very low density lipoprotein concentrations, and a greater high-density lipoprotein mass due to higher concentrations of the subfraction HDL2 and apoprotein A-I. Plasma low-density lipoprotein concentrations usually are not significantly reduced by exercise unless accompanied by weight loss, but there may be important changes in the distribution among the low-density subfractions. These exercise effects are most likely mediated by alterations in the activity of enzymes involved in the synthesis, transport and catabolism of the various lipoproteins including lipoprotein lipase, hepatic lipase and lecithin: cholesterol acyltransferase. In healthy persons as well as in patients with ischemic heart disease, diabetes and renal failure, an increase in moderate-intensity, endurance-type activity requiring an expenditure of approximately 4 MJ (1,000 kcal) per week usually produce favorable lipoprotein changes. Above this level a dose-response relationship exists, with greater changes occurring up to energy expenditures of 19 MJ (4,500 kcal) per week.
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PMID:The influence of exercise training on plasma lipids and lipoproteins in health and disease. 353 12

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