Henri-Joseph Parra

A multicenter comparison of the effects of simvastatin and fenofibrate therapy in severe primary hypercholesterolemia, with particular emphasis on lipoproteins defined by their apolipoprotein composition

This multicenter, double-blind, randomized study was designed to compare the effects of simvastatin (20 mg/d and 40 mg/d) and fenofibrate (400 mg/d) on plasma lipids, lipoproteins, apolipoproteins (apo), and lipoprotein particles defined by their apo composition (Lp A-I, Lp A-II:A-I, Lp E:B, Lp C-III:B) in primary hypercholesterolemia. After 6 and 10 weeks of therapy, both drugs lowered plasma cholesterol, low-density lipoprotein (LDL) cholesterol, and apo B. The effect on LDL and apo B was significantly more pronounced for simvastatin (P = .01). Simvastatin increased Lp A-I, but did not change Lp A-II:A-I, while fenofibrate decreased Lp A-I and increased Lp A-II:A-I. Lp E:B and Lp C-III:B were decreased with both drugs, but fenofibrate was significantly more effective in reducing these particles than simvastatin. This study demonstrates that both drugs have beneficial effects on the parameters positively or negatively correlated with the atherosclerotic risk, with simvastatin being more effective in reducing some of them. These results suggest that the drugs led to different structural modifications of the lipoproteins, which would not be revealed by examination of lipoprotein density classes. These differences are probably related to the different mechanisms of action of the agents.

Black-white differences in serum Lp(a) lipoprotein levels

Serum Lp(a) lipoprotein was determined in 81 black and 81 white healthy men and women matched for sex and age. The results show a highly significant increase of Lp(a) concentrations in blacks as compared to whites, and confirm the notion that Lp(a) lipoprotein levels are race-dependent. Whether high values of Lp(a) play an atherogenic role in blacks remains to be established in further studies.

Beneficial effect on serum apo AI, apo B and Lp AI levels of Ramadan fasting

In order to investigate for the first time in Morocco the effect of fasting in Ramadan, the ninth lunar month of the muslim year, on lipoprotein metabolism, we determined the levels of serum apolipoproteins; apolipoprotein AI (apo AI), apo B, apo AIV and those of lipoprotein particles; apo AI-containing lipoprotein particles (Lp AI) and also apo AI and apo AII containing lipoprotein particles (Lp AI:AII) in a group of 32 healthy, volunteer adult males. Determination of all these parameters was carried out on each week of the month of Ramadan and the results are compared with the pre-fasting and the post-fasting values. Ramadan fasting reduces significantly serum apo B (P < 0.05), while serum apo AI is significantly increased (P < 0.05) compared with the pre-fasting period. The increase of apo AI occurred on day 29 of Ramadan by 11.8%. Serum apo AIV was unchanged during the fasting period indicating that food intake during Ramadan is not based on lipid diet. The observed diet pattern during Ramadan showed an increase of total energy intake based on carbohydrates (+1.4% of total energy), proteins (+0.4% of total energy) but not on fat (-0.7% of total energy), compared with a usual diet used in the rest of the year. The fat diet is high in monounsaturated (P < 0.05) and polyunsaturated fatty acid in contrast to saturated fatty acid which decreased (P < 0.05) during Ramadan. On the other hand, analysis of serum Lp AI and Lp AI:AII showed that the levels of Lp AI:AII were unchanged but those of Lp AI were significantly increased (P < 0.01) at the end of Ramadan. These findings show that feeding behaviour that occurs during Ramadan beneficially affects serum apolipoprotein metabolism and may contribute to prevention of cardiovascular diseases.

Effect of pravastatin, an HMG CoA reductase inhibitor, and cholestyramine, a bile acid sequestrant, on lipoprotein particles defined by their apolipoprotein composition.

This study compares the effects of cholestyramine (16 g/d) and pravastatin (40 mg/d) on lipoprotein particles defined by their apolipoprotein composition (Lp A-I, Lp A-II:A-I, Lp E:B, and Lp C-III:B). Analysis was performed after 4, 8, and 12 weeks of therapy. Low-density lipoprotein (LDL) cholesterol decreased by 25.1% to 35.0% with cholestyramine and 26.2% to 30.7% with pravastatin, while triglycerides decreased slightly with pravastatin therapy and increased slightly during cholestyramine administration. The fall in cholesterol was mainly due to a decrease in very-low-density lipoprotein (VLDL) and LDL cholesterol; high-density lipoprotein (HDL) cholesterol increased. Apolipoprotein B was reduced dramatically (by 21.7% to 30.5% with cholestyramine and 27.7% to 37.4% with pravastatin). No significant effect on apolipoproteins C-III and E was observed with cholestyramine, while pravastatin reduced these parameters slightly. Apolipoprotein A-I increased during therapy with both drugs, while apolipoprotein A-II was slightly decreased. Although the drugs had nearly the same effects on plasma lipids, their influence on lipoprotein particles defined by their apolipoprotein composition was substantially different. Lp A-II:A-I was increased by both drugs (+8.1% to +41.2% for cholestyramine and +7.2% to +32.6% for pravastatin). Lp A-I was also increased with both drugs, but cholestyramine had a more constant and pronounced effect than pravastatin (+15.1% to +21.7% for cholestyramine and +1.7% to +13.0% for pravastatin). Lp E:B and Lp C-III:B were consistently decreased by pravastatin (-10.2% to -36.5% for LP E:B and -7.2% to -20.9% for Lp C-III:B), while cholestyramine had variable effects on these particles.(ABSTRACT TRUNCATED AT 250 WORDS)

DNA polymorphisms of human apolipoprotein A‐IV gene: frequency and effects on lipid, lipoprotein and apolipoprotein levels in a French population

Genetic polymorphisms of apolipoprotein (apo) A‐IV have been shown to influence lipoprotein metabolism in some human populations. In this study, we have evaluated the physiological effect of three apo A‐IV polymorphisms (Gln360‐ < His, Thr347‐ < Ser and XbaI within the second intron of the apo A‐IV gene), in a French population, on seven quantitative traits: total cholesterol and triglycerides, cholesterol of HDL, apo A‐IV, apo B, apo A‐I and glucose. The polymorphism at amino‐acid 360 was determined by direct analysis of polymerase chain reaction products. The allele frequencies were 0.92 for the A‐IV1 and 0.08 for the A‐IV2 allele. The genetic polymorphism at codon 347 was investigated by allele‐specific oligonucleotide hybridization. The allele frequencies of the two alleles, A‐IV347Thr and A‐IV347Ser, were 0.78 and 0.22, respectively. The XbaI polymorphism was investigated by polymerase chain reaction followed by XbaI restriction enzyme digestion of the amplified products. The frequencies of the two apo A‐IV alleles, XbaI‐1 and XbaI‐2, were 0.79 and 0.21, respectively. None of the three apo A‐IV polymorphisms had a significant effect on lipoprotein, apolipoprotein and glucose levels.

High-density lipoprotein particles in octogenarians☆

High-density lipoprotein (HDL) particles exhibit considerable heterogeneity, specifically in apolipoprotein (apo) composition. Thus, apo A-I, the major protein of HDL, is present in two types of particles: one species contains both apo A-I and apo A-II (Lp A-I/A-II) while in the other (Lp A-I), apo A-II is absent. We used the hypothesis that octogenarians, who survived periods in life when the incidence of coronary heart disease (CHD) is very high, have several protective factors. We compared HDL-cholesterol (HDL-C), HDL2-cholesterol (HDL2-C), HDL3-cholesterol (HDL3-C), apo A-I, and apo A-II in octogenarians and younger control subjects smoking less than 10 cigarettes/d and not taking drugs known to affect lipid metabolism. Using a new procedure, we also compared the levels of Lp A-I and Lp A-I/A-II. The cholesterol content of total HDL was similar in octogenarian and control (38 +/- 8 years) men while HDL2-C was higher and HDL3-C, apo A-I, and A-II were lower in octogenarian than in control men. In women, the level of HDL-C and apo A-I was similar in premenopausal and octogenarian subjects but higher in postmenopausal women than in octogenarians, while HDL2-C and apo A-II were similar in the three groups. In contrast, HDL3-C was higher in the two groups of control women (premenopausal and postmenopausal) than in octogenarians. However, Lp A-I was significantly elevated in octogenarian men and women (men: 61 +/- 14 mg/dL; women: 70 +/- 14 mg/dL) by comparison with younger control subjects (men: 48 +/- 12 mg/dL; premenopausal women: 53 +/- 11 mg/dL; postmenopausal women: 63 +/- 19 mg/dL).(ABSTRACT TRUNCATED AT 250 WORDS)

Plasma cholesterol and endogenous cholesterol synthesis during refeeding in anorexia nervosa.

Normal or high levels of cholesterol have been measured in patients with anorexia nervosa (AN). Given that cholesterol intake in AN is usually very low, the reasons for this anomaly are not clearly understood. We studied lipid and lipoprotein profiles and endogenous cholesterol synthesis, estimated by serum lathosterol, in a population of 14 girls with AN, before and during a period of 30 days refeeding. The initial body mass index (BMI) of the patients was 13.41+/-1.62 kg/m(2). No changes were observed during refeeding in endocrine parameters (ACTH, cortisol and estradiol). At Day 0 the lipids data measured here showed normal levels of triglycerides, and total cholesterol at the upper limits of the normal range (5.44+/-1 mmol/l). At this time, total and LDL cholesterol were negatively correlated with transthyretin and BMI. Serum lathosterol (a precursor in cholesterol synthesis pathway) increased significantly (5.99+/-1.75 (Day 0) vs. 8.39+/-2.96 (Day 30); P=0.02) while there was a significant decrease in apo B (0.79+/-0.33 (Day 0) vs. 0. 60+/-0.17 g/l (Day 30), P=0.02) with refeeding. Thus, patients with initial high cholesterol levels have the worst nutritional status and high cholesterol levels are not related to a de novo synthesis. This profile returns to normal with refeeding. An increase of cellular cholesterol uptake may be responsible for this apparently paradoxical evolution with increase of cholesterol synthesis and decrease of apo B during renutrition.

Isolation and characterization of two sub-species of Lp(a), one containing apo E and one free of apo E

Lipoprotein Lp(a) was isolated by immunoaffinity chromatography using anti apolipoprotein B and anti apolipoprotein (a) immunosorbents. Besides apolipoproteins (a) and B, this fraction was shown to contain apolipoproteins C and E. Therefore, it was decided to further purify this crude Lp(a) into particles containing apolipoprotein E and particles free of apo E, using chromatography with an anti apolipoprotein E immunosorbent. Lp(a), free of apolipoprotein E was cholesterol ester rich and triacylglycerol poor and was found mainly in the LDL size range. In contrast, Lp(a) containing apolipoprotein E was triacylglycerol rich and was distributed mainly in the VLDL and IDL size range. Binding of these two fractions, one containing apo E and one free of it, to the apo B/E receptor of HeLa cells was studied. Both fractions bound to the receptor but the one containing apo E had a better affinity than the one free of apo E. Further studies are needed to identify the clinical importance of these two different entities.

The increased plasma Lp(a) : B lipoprotein particle concentration in angina pectoris is not associated with hypofibrinolysis

The structural homology between plasminogen and apolipoprotein (a), the specific glycoprotein of Lp(a) lipoprotein, raises the possibility of a relationship between this lipoprotein and the plasma fibrinolytic system. The present study examines this proposal by studying 66 patients with angina pectoris. As compared to normal controls, the patients had raised concentrations of Lp(a): B lipoprotein particles. No correlation was found between circulating Lp(a): B and the fibrinolytic system. The pathogenic role of Lp(a): B lipoprotein seems therefore not mediated by its effect on the plasma fibrinolytic system.

Probucol promotes reverse cholesterol transport in heterozygous familial hypercholesterolemia. Effects on apolipoprotein AI-containing lipoprotein particles

In order to investigate the effect of Probucol therapy on reverse cholesterol transport, apo AI-containing lipoprotein particles were isolated and characterized, and their cholesterol effluxing capacity and LCAT activity were assayed in four familial hypercholesterolemia patients before and after 12 weeks of Probucol therapy. Four major subpopulations of apo A-containing lipoprotein particles are separated before and after drug treatment; LpAI, LpAI:AII, LpAIV, LpAI:AIV:AII. Probucol reduces both total plasma and LDL-cholesterol (-17 and -14%, respectively). Apo B decreases slightly (-7.6%). Plasma HDL-cholesterol and apo AI decrease by 36.6 and 34.7%. LpA-I showed a marked decrease (-46%). Moreover, plasma LCAT and CETP activities were markedly increased under Probucol treatment. Analysis of lipoprotein particles showed that Probucol induces a decrease of protein content and an increase of cholesterol and triglycerides contents. Interestingly, Probucol induces an enhancement of LCAT activity in LpAI (4.5-fold). This drug induces a trend toward greater cholesterol efflux from cholesterol-preloaded adipose cells promoted by Lp AI and Lp AIV but not by Lp AI:AII. This study confirms the hypothesis, in addition to the lowering LDL-cholesterol levels and antioxidant effects of Probucol, that HDL reduction was not an atherogenic change in HDL system but may cause an antiatherogenic action by accelerating cholesterol transport through HDL system, promoting reverse cholesterol transport from peripheral tissues.