Fenofibrate improves postprandial chylomicron clearance in II B hyperlipoproteinemia

In 11 patients with 1113 hyperlipoproteinemia we studied fasting lipids, lipoproteins, lipoprotein-modifying enzymes, and postprandial lipid metabolism after a standardized oral fat load supplemented with vitamin A before and 12 weeks after treatment with fenofibrate, a third-generation fibric acid derivative. Fasting plasma cholesterol, triglycerides, low-density lipoprotein cholesterol decreased significantly (P < 0.05, P < 0.01, P < 0.01), high-density lipoprotein subfraction 3 cholesterol increased significantly (P < 0.05), and high-density lipoprotein subfraction 2 cholesterol remained unchanged. Postprandial lipemia, i.e., the integrated postprandial triglyceride concentrations corrected for the fasting triglyceride level, and postprandial chylomicron concentrations, as assessed by biosynthetic labeling of chylomicrons with retinyl palmitate, decreased by 40.6% and 60.1% (P < 0.05; P < 0.05), respectively. The activity of lipoprotein lipase (LPL) increased by 33.6% (P < 0.05); the increase in LPL during fenofibrate treatment was positively correlated with the increase in high-density lipoprotein cholesterol (r = 0.84; P < 0.005). Hepatic lipase and cholesteryl ester transfer protein mass and activity remained unchanged. We conclude that lipid-lowering therapy with fenofibrate ameliorates fasting and, more profoundly, postprandial lipoprotein transport in hypertriglyceridemia by curbing postprandial triglyceride and chylomicron accumulation, at least in part, through an increase in LPL activity.Abbreviations LDL low-density lipoproteins - HDL high-density lipoproteins - LPL lipoprotein lipase - HL hepatic lipase - CETP cholesteryl ester transfer protein - CHD coronary heart disease - VLDL very low density lipoproteins - TG triglycerides - apo apolipoprotein Correspondence to: J.R. Patsch     

Discrepancies in the measurement of serum pancreatic lipase activities by non-enzymatic and enzymatic assays,and relationships to pseudohyperlipasemia

I have observed discrepancies in the measurement of serum pancreatic lipase(LIP, Triacylglycerol acylhydrolase, EC 3.1.1.3) activities by non-enzymatic and enzymatic methods using diglyceride(1,2-dilinoleoyl-2-palmitoyl-glycerol, DLPG) as a substrate. The greatest discrepancies were seen in the post-heparin sera of patients with acute coronary syndrome(ACS). It is well-known that serum levels of lipoprotein lipase(LPL, EC 3.1.1.34) and hepatic triglyceride lipase(HTL, EC 3.1.1.3) show a significant increase after the administration of heparin in hemodialysis patients, and even larger quantities of heparin are administered before cardioangiography for ACS. Moreover, inhibitors of LPL and HTL induce almost complete reduction of increased LIP activity in post-heparin serum as measured by enzymatic assays. Pseudohyperlipasemia and positive interference from post-heparin serum LIP activity in enzymatic assays are considered to largely reflect LPL and HTL activities. Therefore, enzymatic reagent kits need improvement.     

Diagnostic value of post-heparin lipase testing in detecting common genetic variants in the LPL and LIPC genes

Post-heparin lipoprotein lipase and hepatic lipase activities are used to identify primary disorders of triglyceride and HDL-cholesterol metabolism. Their ability to identify common variants in the lipoprotein lipase (LPL) and hepatic lipase (LIPC) genes is unclear. To investigate the ability of lipase testing to detect common lipase gene variants, we included 183 patients who had undergone post-heparin lipase testing and genotyped the LPL D9N, N291S, PvuII, HindIII, and S447X and the LIPC-514CT, V73M, V133V, and N193S polymorphisms. Allele frequencies were compared with 163 controls. Polymorphisms with different allele frequencies in patients and controls or influencing lipids, were analyzed further. The diagnostic value of post-heparin lipase testing was assessed using logistic regression and receiver operating characteristic curves. We found that lipase activities did not predict the LPL D9N and N291S polymorphisms, but predicted the LPL S447X and LIPC-514CT polymorphisms. Adjusted for covariates, the area under the receiver operating characteristic curves was 0.643, 0.478, 0.686, and 0.657 for LPL D9N, N291S S447X and LIPC-514CT, respectively. On the basis of these findings, we conclude that high-LPL and low-HL activities associate with the LPL S447X and LIPC-514CT polymorphisms, but low-LPL activity was not related to LPL polymorphisms. Overall, the discriminative ability of post-heparin lipase tests in identifying carriers of common variants in the LPL and LIPC genes was limited. This indicates that conclusions on the genetic causes of lipase activities outside of the normal range should be drawn with caution.     

Long-term experience with extracorporeal low-density lipoprotein cholesterol removal by dextran sulfate cellulose adsorption

Summary Patients with familial hypercholesterolemia have a high incidence of coronary heart disease due to diet- and drug-resistant, elevated low-density lipoprotein cholesterol (LDL-C). Five patients with familial hypercholesterolemia and diet- and drug-resistant LDL-C > 230 mg/dl were treated by LDL apheresis using dextran sulfate cellulose adsorption (Liposorber System LA-15, Kaneka). Plasma separation was by 0.5-m² polysulfone hollow fiber filter. Two columns containing 150 ml of dextran sulfate cellulose alternately adsorbed LDL and were regenerated by 4.1% saline. The five patients received a total of 360 treatments at 7-day intervals. The treated plasma volume per session was 4.1 ± 0.41. Postapheresis values compared with preapheresis were: total cholesterol, 40%; LDL-C, 28%; VLDL-C, 65%; HDL-C, 95%; triglycerides, 70%; white blood cells, 116%; platelets, 87%; C3 complement, 79%; fibrinogen, 64%; albumin, 94%. The decrease in HDL-C per treatment was not significant. The safety parameters showed only slight changes. The initial LDL of 436 ± 172 mg/dl decreased to mean pre-apheresis levels of between 150 and 100 mg/dl. The anti-atherogenic HDL increased in three and remained unchanged in two patients. Adverse events like hypotension, angina pectoris, and technical problems occurred in 11 of the 360 treatments. Long-term treatment of patients with diet- and drug-resistant familial hypercholesterolemia by extracorporeal dextran sulfate cellulose adsorption is effective and safe.Abbreviations LDL low-density lipoprotein - LDL-C lowdensity lipoprotein cholesterol - VLDL very low-density lipoprotein - HDL high-density lipoprotein - HDL-C high-density lipoprotein cholesterol - CHD coronary heart disease - FH familial hypercholesterolemia - HMG CoA hydroxy-3methyl-glutaryl coenzyme A - PTT partial thromboplastin time - IU international units - ANOVA analysis of variance     

Two common mutations (D9N, N291S) in lipoprotein lipase: a cumulative analysis of their influence on plasma lipids and lipoproteins in men and women

We assessed the effect of two common mutations in the lipoprotein lipase gene (LPL), D9N and N291S, which have been shown to modulate plasma lipids in a wide spectrum of patients. A total of 1114 men and 1 144 women from the Framingham Offspring Study (FOS) were analyzed for these two LPL variants. Subsequently, the association with fasting plasma lipids and risk of coronary artery disease (CHD) was determined. We extended our study by calculating weighed means of lipids and lipoproteins in carriers and non-carriers for these LPL mutations in patients with genetic dyslipidemias, CHD patients and healthy controls. In the FOS sample, the D9N and N291S alleles were associated with lower high-density lipoprotein-cholesterol (HDL-C) (delta = - 0.07 mmol/ 1, p = 0.03) and a trend towards increased triglycerides (delta = 0.25 mmol/ 1, p = 0.07). In women, a trend towards the high triglyceride, low HDL-C phenotype was evident (delta = - 0.02 mmol/1 for HDL-C and delta = 0.14 mmol/l for triglycerides, respectively). Cumulative analysis of other studies of male carriers of the D9N and N291S revealed higher levels of triglycerides (D291N; 2.60(1.85) mmol/l vs. 1.62(1.18) mmol/l: p < 0.0001) (D9N; 1.94 (1.19) mmol/l vs. 1.74(1.17) mmol/l: p < 0.001) and lower HDL-C (N291S; 1.04(0.32) mmol/l vs. 1.15(0.28) mmol/l: p < 0.0001) (D9N; 1.08(0.24) mmol/l vs. 1.16(0.28) mmol/l: p < 0.0001). In females, results differed with higher TG levels (N291S; 1.70(0.99) mmol/l vs. 1.10(0.63) mmol/l: p < 0.001) (D9N; 1.08(0.76) mmol/l vs. 0.96(0.51) mmol/l: p < 0.01) and lower HDL-C levels (N291S; 1.27(0.33) mmol/l vs. 1.51(0.32) mmol/l: p < 0.0001); however, the HDL-C levels for D9N carriers were similar to non-carriers (D9N; 1.52(0.29) mmol/l vs. 1.53(0.35) mmol/l: p = 0.83). Our data provide evidence that common variants of the LPL gene are significant modulators of lipid and lipoprotein levels in both men and women.     

A common truncation variant of lipoprotein lipase (Ser447X) confers protection against coronary heart disease: the Framingham Offspring Study

Genetic variation at the lipoprotein lipase (LPL) locus has been shown to influence plasma lipids and to modulate risk of coronary heart disease (CHD). Recently, we found that the most frequent variant at this locus, involving a C-terminal truncation of two amino acids (Ser447X), was associated with both higher LPL activity and high density lipoprotein cholesterol (HDL-C) in patients with CHD. However, the impact of this S447X variant on lipids and CHD in the general population was hitherto unknown. We, therefore, analyzed a total of 1114 men and 1144 women randomly ascertained from the Framingham Offspring Study (FOS) for the presence of this LPL variant. Carrier frequency of the S447X allele was 17%, and in men carrier status was associated with higher total cholesterol (delta = 6.2 mg/dl, p = 0.03). higher HDL-C (delta = 2.3 mg/dl, p = 0.01), and lower triglyceride (TG) levels (delta = -19.4 mg/dl, p = 0.02). Moreover, in men, the S447X allele conferred significant protection against CHD (odds ratio: 0.43; p = 0.04). These effects on lipids and CHD were not seen in women. Our study represents the first report on the impact of this mutation on CHD in men from the general population, and we conclude, therefore, that the S447X variant may confer significant protection against high TG levels, low HDL-C, and premature CHD in these subjects.     

Physical activity modulates the effect of a lipoprotein lipase mutation (D9N) on plasma lipids and lipoproteins

We investigated interactions between a mutation (D9N) in the lipoprotein lipase (LPL) gene and physical activity, as well as other lifestyle factors, on lipid traits in a population-based sample of Dutch men and women (n = 379). We used questionnaire information to classify physical activity, alcohol consumption, and smoking habits, while overweight was defined as a body mass index (BMI) > 25 kg/m2. Non-fasting blood samples were used for the determination of lipid traits and the D9N genotype. Fifteen subjects (4%) carried the mutation. They presented with higher levels of total cholesterol, apolipoprotein (apo) B and triglycerides compared to non-carriers. While no interactions with overweight, alcohol consumption, and smoking were found, a strong interaction between the D9N mutation and physical activity became apparent. Physically inactive D9N carriers (n = 5) had considerably higher total cholesterol (+2 mmol/l, p < or = 0.0001) and apo B levels (+63 mg/dl, p < or = 0.0001) compared to non-carriers of this mutation, whereas their high-density lipoprotein (HDL)-cholesterol concentrations were lower (-0.22 mmol/l, p < 0.05). This was not the case for physically active D9N carriers (n = 10). In conclusion, a common variant of the LPL gene (D9N) adversely affects plasma lipid and lipoprotein profiles. However, the unfavorable consequences may be counteracted by physical activity.     

The LPL S447X cSNP is associated with decreased blood pressure and plasma triglycerides, and reduced risk of coronary artery disease

Linkage of the lipoprotein lipase (LPL) gene to blood pressure levels has been reported. The LPL S447X single nucleotide polymorphism (cSNP) has been associated with decreased triglycerides (TG), increased high density lipoprotein cholesterol, and a decreased risk of coronary artery disease (CAD), which may occur independently of its beneficial lipid changes. To investigate the relationship between LPL S447X cSNP and these parameters, we studied a cohort of individuals with familial hypercholesterolemia in whom blood pressures and information regarding the use of blood pressure lowering medications were available. Carriers of the S447X variant had decreased TG (1.21+/-0.47 vs. 1.52+/-0.67, p<0.001) and a trend towards decreased vascular disease (12.7 vs. 19.5%) compared to non-carriers. More interestingly, however, carriers of this cSNP had decreased diastolic blood pressure compared to non-carriers (78+/-10 vs. 82+/-11, p=0.002), evident in both men and women, youths and adults, with similar trends for systolic blood pressure. Furthermore, the decrease in blood pressure appeared independent of the decrease in TG (p=0.02), suggesting that the LPL protein may have a direct influence on the vascular wall. This suggests an additional mechanism whereby this variant may have protective effects, independent of changes in plasma lipid levels.     

Treatment of coronary heart disease by diet and exercise: Fasting and diurnal lipoproteins

Summary The effects of a combined exercise and low-fat dientary regimen were studied in 11 patients with angiographically documented coronary heart disease (cholesterol 233 mg/dl, triglycerides 158 mg/dl) and 13 comparable patients (cholesterol 224 mg/dl, triglycerides 174 mg/dl) on usual care. During one year, fasting serum lipoproteins were lowered to ideal levels in the intervention group (cholesterol 191 mg/dl, triglycerides 100 mg/dl, LDL-cholesterol 121 mg/dl). There was no change of triglycerides and cholesterol on usual care while LDL-cholesterol rose significantly. Neither regimen had any effect on HDL-cholesterol. Diurnal triglycerides as a presumptive measure of IDL in the intervention group were diminished by 39%. The study demonstrates the feasibility of a diet and exercise regimen to normalize midly elevated plasma lipid levels and thus to possibly affect the course of coronary heart disease without drugs.Abbreviations Chol cholesterol - TG triglycerides - HDL high density lipoproteins - LDL low density lipoproteins - LP(a) lipoprotein (a) - P/S polyunsaturated to saturated fatty acid ratio - Int. Intervention group - C Control group Supported by Bundesministerium für Forschung und Technologie     

茶多酚对实验性动脉粥样硬化兔脂蛋白脂酶、肝脂酶活性的影响及意义

目的:观察动脉粥样硬化(AS)发生发展过程中脂蛋白脂酶(LPL)、肝脂酶(HL)活性的变化及茶多酚(TP)的作用。方法:高脂食物AS模型兔口服茶多酚200μg·g^-1·d^-1,测定血浆中LPL、HL活性,同时用组织化学法检测动脉壁层组织中LPL活性、肝组织中HL活性。结果:AS组动脉粥样硬化病变血管壁与正常对照组血管壁组织中LPL活性差异无显著(P＞0.05);AS组肝组织中HL活性明显低于正常对照组(P＜0.05)。TP组肝组织中HL活性明显高于AS组(P＜0.05)、血浆中TC和LDL-c水平低于AS组(P＜0.05)、动脉粥样硬化斑块面积低于AS组(P＜0.05)。各组间血浆LPL、HL活性水平差异无显著(P＞0.05)。结论:茶多酚能增加实验性AS兔肝组织中HL脂酶活性,这一作用与降低血浆胆固醇水平和抗动脉粥样硬化密切相关。     

Role of hepatic and lipoprotein lipase in lipoprotein metabolism and atherosclerosis: studies in transgenic and knockout animal models and somatic gene transfer

Hepatic lipase (HL) and lipoprotein lipase (LPL) are the two major lipolytic enzymes responsible for the hydrolysis of triglycerides and phospholipids present in circulating plasma lipoproteins. Both lipases are attached to the vascular endothelium via cell surface proteoglycans. HL is primarily involved in the metabolism of chylomicron remnants, intermediate density lipoproteins and high-density lipoproteins whereas LPL catalyzes the hydrolysis of triglycerides from chylomicrons and very low-density lipoproteins. In addition to their traditional function as lipolytic enzymes, HL and LPL appear to serve as ligands that mediate the interaction of lipoproteins to cell surface receptors and/or proteoglycans. Over the past several years significant advances have been made in our understanding of new, alternative mechanisms by which HL and LPL modulate lipoprotein metabolism and the development of atherosclerosis in vivo. This review will summarize some of the new insights generated from the study of transgenic and knockout HL and LPL animal models as well as somatic gene transfer of these two lipases.     

Effects of long-term treatment with simvastatin on plasma lipids and lipoproteins in patients with primary hypercholesterolemia

Summary We investigated long-term hypolipidemic effects and clinical safety of simvastatin, a new competitive inhibitor of 3-hydroxy-methylglutaryl coenzyme A reductase in 24 patients with familial and non-familial hypercholesterolemia. Patients received up to 40 mg simvastatin for a period of 30 months. Significant decreases were noted in plasma cholesterol (30%), plasma triglycerides (25%), very low density lipoprotein-cholesterol (26%), and low density lipoprotein-cholesterol (40%), whereas an increase in plasma high density lipoprotein-cholesterol (11%) was observed. Furthermore, the percentage decrease in plasma low density lipoprotein cholesterol was independent of individual baseline concentrations. Simvastatin did not alter the composition of low density lipoproteins or high density lipoproteins. The percentage decrease in total plasma and low density lipoprotein-cholesterol was independent of apoprotein E isoforms and low density lipoprotein-receptor activity as assayed in cultured fibroblasts. The drug therapy was well tolerated and clinical examinations revealed no adverse effects. Clinical chemistry indices and hematological, as well as endocrinological parameters remained within normal limits and ranges.Abbreviations VLDL very low density lipoprotein - LDL low density lipoprotein - HDL high density lipoprotein - CHD coronary heart disease - LDL-C low density lipoprotein-cholesterol - FH familial hypercholesterolemia - HMG-CoA 3-hydroxy-3-methylglutaryl-coenzyme A - HELP heparin extracorporeal low density lipoprotein precipitation This work was supported by a grant from the Deutsche Forschungsgemeinschaft to A.K. Walli (Wa 458/I-1)Dedicated to Prof. Dr. med. F. Scheler on the occasion of his 65th birthday     

Pseudodominance of lipoprotein lipase (LPL) deficiency due to a nonsense mutation (Tyr302>Term) in exon 6 of LPL gene in an Italian family from Sardinia (LPL(Olbia))

We analyzed the molecular defect in the lipoprotein lipase (LPL) gene of a young boy from Sardinia who had primary hyperchylomicronemia, pancreatitis, and a complete LPL deficiency in post-heparin plasma. Analysis of LPL gene was performed by using single strand conformation polymorphism (SSCP) and direct sequencing of SSCP-positive region. The proband was homozygous for a C > A transversion in exon 6, which converts the codon for tyrosine at position 302 into a termination codon and eliminates an RsaI restriction site; this allowed the rapid screening of the proband's family members, among whom nine heterozygotes and one additional homozygote were identified. The homozygote was the proband's paternal grandmother who had shown the first clinical manifestation (recurrent pancreatitis) of LPL deficiency at the age of 54 years. LPL mutation carriers showed a mild dyslipidemic phenotype characterized by a reduction of high density lipoprotein-cholesterol (HDL-C) levels, HDL-C/total cholesterol ratio, and low density lipoprotein (LDL) size, associated with a variable increase of triglyceride levels. Five of these carriers were also heterozygotes for beta-thalassemia (Q39X mutation). In these double mutation carriers, plasma HDL-C levels were higher and plasma triglycerides tended to be lower than in carriers of LPL mutation alone. The Tyr302 > Term mutation encodes a truncated protein of 301 amino acids that is probably not secreted by the LPL producing cells. This is the first mutation of LPL gene found in Sardinians.     

Apolipoprotein E phenotype and lipoprotein(a) in familial hypercholesterolaemia implication for lipoprotein(a) metabolism

The mechanisms regulating plasma levels of lipoprotein(a) [Lp(a)] are largely unknown. A two- to three-fold increase in Lp(a) levels in patients with familial hypercholesterolaemia (FH) has implied that LDL receptor activity may be an important factor in determining plasma Lp(a) levels, as it is in determining low-density lipoprotein (LDL) cholesterol concentration. Common apolipoprotein E (apoE) variants also affect plasma LDL cholesterol levels. We therefore examined the effect of the common apoE variants on plasma Lp(a) levels in 149 patients with heterozygous FH. Patients with the apoE₂ allele (n = 11) had significantly higher plasma levels of LDL cholesterol compared to those with a apoE₃E₃ phenotype, while patients with the apoE₄ isoform had similar levels. However, there was a significant effect of the apoE₂ allele in lowering Lp(a) levels, compared to the apoE₃E₃ group. The median Lp(a) concentration in patients possessing an apoE₂ isoform was 13.1 mg/dl below the median, while in those with an apoE₄ allele the median Lp(a) levels were 4.13 mg/dl higher. There was a marked inverse correlation between plasma Lp(a) and LDL cholesterol concentration in the FH patients carrying the apoE₂ allele. Our data imply that difference in Lp(a) levels observed between FH patients with different apoE isoforms does not result from altered clearance of Lp(a) via the LDL receptor pathway, and suggest that apoE mediated hepatic up-take, or conversion, of remnant particles may be determining Lp(a) production rate.Abbreviations apo apoprotein - CHD coronary heart disease - FH familial hypercholesterolaemia - HDL high-density lipoprotein - LDL low-density lipoprotein - Lp(a) lipoprotein(a)     

Impact of hormone replacement therapy on postprandial lipoproteins and lipoprotein(a) in normolipidemic postmenopausal women

In 43 normolipidemic postmenopausal women we studied fasting and postprandial (oral fat load with 50 g fat per square meter; blood sampling for 5 h) lipoprotein components and lipoprotein(a) levels before and with the administration of conjugated equine estrogens opposed by medrogestone (on days 11–21). Data was compared intraindividually; the second testing was performed during the last 5 days of the combined estrogen/progestogen phase of the third cycle. Fasting low-density lipoprotein (LDL) and total cholesterol concentrations decreased significantly; high-density lipoprotein (HDL) cholesterol, including subfractions HDL₂ and HDL₃, was not changed. Fasting triglyceride concentrations increased. All lipoprotein fractions measured showed a postprandial elevation with the exception of chylomicron cholesterol concentrations. There was a significant effect of hormone replacement therapy on the postprandial course of total cholesterol (decrease; P < 0.001), VLDL cholesterol (increase; P = 0.025), and the triglyceride proportion in the LDL plus HDL fraction (increase; P < 0.001). With hormone replacement therapy the postprandial curve of total triglycerides was increased only 1 h after the fat load while chylomicron triglyceride concentrations were lowered after 5 h. VLDL triglycerides were not influenced. In all patients with lipoprotein(a) levels above 10 mg/dl, this parameter decreased (about 25%). Although increasing fasting triglyceride concentrations, hormone replacement therapy does not bring about an exaggerated postprandial increase in triglycerides. Postprandial chylomicron clearance is evidently promoted. Hormone replacement therapy leads to a small increase in triglycerides in the LDL plus HDL fraction by inhibiting hepatic lipase activity. Moreover, the decrease in lipoprotein(a) levels may contribute to the antiatherosclerotic effect.Abbreviations: CEE conjugated equine estrogens - HDL high-density lipoproteins - HRT hormone replacement therapy - LDL low-density lipoproteins - TG triglycerides - VLDL very low density lipoproteins Correspondence to: U. Julius     

Selective deficiency of hepatic triglyceride lipase in uremic patients.

To investigate the pathogenesis of hypertriglyceridemia in patients with renal disease we measured plasma lipoprotein composition as well as hepatic triglyceride lipase and lipoprotein lipase in post-heparin plasma. Three groups with renal disease were studied: conservatively treated chronic uremia; patients undergoing maintenance hemodialysis; and renal-allograft recipients. A selective decrease of hepatic triglyceride lipase with normal lipoprotein lipase was found in conservatively treated uremia and in patients undergoing hemodialysis. Elevated levels of very-low-density lipoproteins and increased triglycerides in low-density lipoproteins occurred in these patients. In contrast, hepatic triglyceride lipase and lipoprotein lipase were both normal in patients after renal transplantation who had Type II hyperlipoproteinemia as a common lipoprotein pattern with increased low-density-lipoprotein cholesterol and decreased high-density-lipoprotein cholesterol concentrations. The accumulation of a triglyceride-rich low-density lipoprotein in the majority of patients with renal disease may be the consequence of low hepatic triglyceride lipase.     

The Asn9 variant of lipoprotein lipase is associated with the — 93G promoter mutation and an increased risk of coronary artery disease

Two mutations in the lipoprotein lipase (LPL) gene, a T to G transition at position −93 of the proximal promoter region and an Asp9Asn substitution in exon 2, were examined in 762 Dutch males with angiographically-diagnosed coronary artery disease (CAD) and 296 healthy normolipidemic Dutch males. The two mutations exhibited strong linkage disequilibrium (D'=0.975). A significantly higher proportion of cases (4.86%) than controls (1.37%) carried the −93G/Asn9 allele (p=0.008). In the combined sample of cases and controls, adjusted mean plasma total cholesterol (TC) levels were significantly higher in −93G/Asn9 carriers (6.20±0.13 mmol/l) than in non-carriers (5.93±0.03 mmol/l; p=0.048), while mean high-density lipoprotein cholesterol (HDL-C) levels were lower in carriers (0.88±0.03 mmol/l) than in non-carriers (0.98±0.01 mmol/l; p=0.002). There was a trend towards higher triglyceride (TG) levels in carriers (1.96±0.14 mmol/l) compared with non-carriers (1.73±0.03 mmol/l) (p=0.08). Additionally, carrier frequencies in tertiles of TC, HDL-C, TG, and LPL activity, suggested an association of the −93G/Asn9 variant with higher TC and TG levels, and with lower HDL-C and LPL activity levels. Logistic regression revealed a significant odds ratio (OR) for the combined −93G/Asn9 genotype in CAD cases relative to controls (OR: 5.36; 95% CI: 1.57–18.24), with age, body mass index (BMI), smoking, and plasma total- and HDL-cholesterol levels included in the model. In conclusion, we show that the LPL Asp9Asn mutation is in non-random association with a T→G substitution at position −93 of the proximal promoter region and that the combined −93G/Asn9 genotype predisposes to decreased HDL-C levels and an increased risk of CAD.     

The association of the R219K polymorphism in the ATP-binding cassette transporter 1 (<Emphasis Type="Italic">ABCA1</Emphasis>) gene with coronary heart disease and hyperlipidaemia

The R219K polymorphism in the ATP-binding cassette transporter 1 gene ( ABCA1) has been associated with reduced severity of atherosclerosis, fewer coronary events, decreased triglycerides and a trend to increased HDL in men with coronary heart disease (CHD). This study examined the frequency and the effect on CHD and plasma lipids of the polymorphism in patients of both sexes attending a lipid out-patient clinic. The overall frequency of the K allele was 0.26. It was lower in patients with CHD (0.21) than in those without (0.27) but this was not statistically significant. Amongst patients with elevated Lp(a) the frequency of the K allele was significantly lower in those with CHD (0.16) than in those without (0.29). There were no statistically significant differences in total cholesterol, LDL, HDL, apoB or apoAI between carriers and non-carriers. When patients with probable secondary hypertriglyceridaemia (triglycerides >1000 mg/dl), type 2 diabetes and carriers of lipoprotein lipase polymorphisms associated with hypertriglyceridaemia were excluded, the K allele was significantly associated with reduced triglycerides but only in patients with apoE 3/3 genotype. In conclusion, we provide additional evidence that the R219K polymorphism in the ABCA1 gene either directly or as a result of linkage disequilibrium with additional functional variant(s), has a protective effect against CHD and is associated with lower plasma triglycerides in sub-groups of patients with hyperlipidaemia.     

Lecithin-cholesterol acyltransferase activity in patients with coronary artery disease examined by coronary angiography

This study grew out of observations of certain lecithin:cholesterol acyltransferase (LCAT) abnormalities in patients with atherosclerosis. We studied the interrelationships among LCAT, and total cholesterol, free and esterified cholesterol, cholesterol in individual lipoprotein fractions, triglycerides, phospholipids, free fatty acids, L-lactates in 90 angiographically examined patients with coronary artery disease and 30 control subjects without clinical manifestations of coronary artery disease. Results of the study showed LCAT activity to be significantly decreased (P<0.05) in patients with single-, double-, or triple-vessel disease than in disease-free subjects. LCAT was also found to follow the stage of coronary artery disease in angiographically examined patients. Decreased LCAT activity was accompanied by lower high-density lipoprotein cholesterol, elevated ratio of unesterified to esterified cholesterol, and increased levels of L-lactates, free fatty acids, and low-density lipoprotein cholesterol. Total cholesterol and triglycerides were within or slightly above the normal limits. The results show LCAT to be a significantly better indicator of the risk of coronary artery disease than either total cholesterol or triglycerides.Abbreviations LCAT lecithin:cholesterol acyltransferase - CAD coronary artery disease - UC/EC ratio of esterified to unesterified cholesterol - MI myocardial infarction - HDL high-density lipoprotein Correspondence to: A. Stavljenic-Rukavina     

The common biological basis for common complex diseases: evidence from lipoprotein lipase gene

The lipoprotein lipase (LPL) gene encodes a rate-limiting enzyme protein that has a key role in the hydrolysis of triglycerides. Hypertriglyceridemia, one widely prevalent syndrome of LPL deficiency and dysfunction, may be a risk factor in the development of dyslipidemia, type II diabetes (T2D), essential hypertension (EH), coronary heart disease (CHD) and Alzheimer''s disease (AD). Findings from earlier studies indicate that LPL may have a role in the pathology of these diseases and therefore is a common or shared biological basis for these common complex diseases. To examine this hypothesis, we reviewed articles on the molecular structure, expression and function of the LPL gene, and its potential role in the etiology of diseases. Evidence from these studies indicate that LPL dysfunction is involved in dyslipidemia, T2D, EH, CHD and AD; and support the hypothesis that there is a common or shared biological basis for these common complex diseases.