Common variants of Cholesteryl ester transfer protein gene and their association with lipid parameters in healthy volunteers of Tamilian population

BACKGROUND: Cholesteryl ester transfer protein (CETP) is involved in a key pathway of reverse cholesterol transport implicated in atherosclerosis and coronary heart disease. CETP gene is known to have many single nucleotide polymorphisms which have been associated with CETP activity and plasma high density lipoprotein cholesterol (HDL-C) concentrations. No data on the prevalence of these polymorphisms and their phenotypic association is available in South Indian population. METHODS: Three CETP polymorphisms: TaqIB, -629C/A and I405V were studied in 171 healthy volunteers from Tamilnadu, a major population of South India. Subjects were clinically examined and lipid profile was estimated. Genotyping was performed by PCR-RFLP and genotype frequencies estimated. RESULTS: The allele frequencies of TaqIB: B1 allele was 0.51; -629C/A: C allele was 0.36; and that of I405V: I allele was 0.47. Study of association between these three polymorphisms and plasma lipid concentrations revealed no significant differences in lipid parameters between genotypes. A gender based subgroup analysis revealed a significant increase in HDL-C in men with B2B2 genotype and decrease in TG in B1B2 genotype. Analysis of the combined effect of multiple mutant genotypes revealed that as the number of mutant genotypes increased, the concentrations of low density lipoprotein-cholesterol (LDL-C), HDL-C and total cholesterol (TC) increased whereas that of triglyceride (TG) decreased in the group of three mutant genotypes significantly. CONCLUSION: The frequency of B2 and A alleles of TaqIB and -629C/A polymorphisms were highest in Tamilian population when compared to other major ethnic groups while that of V allele of I405V polymorphism is between Caucasians and African Americans. Taq1B polymorphism was associated with HDL-C and TG concentrations only in men. Combination of these three polymorphisms was significantly associated with lipid profile than the individual polymorphisms.     

Cholesteryl ester transfer protein TaqIB polymorphism and its relation to parameters of the insulin resistance syndrome in an Austrian cohort

The cholesteryl ester transfer protein (CETP) is responsible for the exchange of triglycerides and cholesteryl esters between lipoprotein particles leading to an increased hepatic clearance of HDL-cholesteryl esters. A high CETP activity reduces serum HDL levels, whereas persons without CETP activity have high HDL levels. We investigated the association of the TaqIB CETP polymorphism and various parameters of the insulin resistance syndrome in a cross sectional population based study. We included 1029 persons without known cardiovascular disease or diabetes mellitus consecutively enrolled in our SAPHIR program (Salzburg Atherosclerosis Prevention program in persons with a High Infarction Risk). Numerous clinical and laboratory data were accomplished. Insulin sensitivity was measured by a short insulin tolerance test. The TaqIB CETP polymorphism was determined by PCR, TaqI restriction and electrophoresis. 35.2% were homozygous for the prevalence (B1B1), 46.7% were heterozygous (B1B2), and 18.1% homozygous for the absence (B2B2) of the restriction site. HDL cholesterol and apolipoprotein A1 were lower and small dense low-density lipoproteins (sdLDL) higher in B1B1 compared to B2B1 and B2B2 persons. In women, we found a significant interaction effect between CETP genotype and adiposity for HDL cholesterol. B1B1 women with a BMI and a waist circumference above the median had 9.7 mg/dl lower HDL than B1B2 and 9.1 mg/dl lower HDL than B2B2 women (P < 0.001). In men, no interaction effect but a marked genotype to HDL correlation was found. There was a high CETP effect on sdLDL detected in men (P = 0.001). B1B1 men had sdLDL in 36%, B1B2 in 24.6%, and B2B2 in only 14.5%. Men with adiposity and insulin resistance had twice as many sdLDL as insulin sensitive men. We found a significant sex specific effect of the TaqIB CETP polymorphism on the insulin resistance parameters HDL-cholesterol and sdLDL in an Austrian population based study.     

Alcohol intake modulates the effect of a polymorphism of the cholesteryl ester transfer protein gene on plasma high density lipoprotein and the risk of myocardial infarction.

A polymorphism of the CETP gene (CETP/TaqIB) with two alleles B1 (60%) and B2 (40%) has been investigated in relation to lipid variables and the risk of myocardial infarction in a large case-control study (ECTIM) of men aged 25-64. No association was observed between the polymorphism and LDL or VLDL related lipid variables. Conversely, B2 carriers had reduced levels of plasma CETP (P < 0.0001) and increased levels of HDL cholesterol (P < 0.0001) and of other HDL related lipid variables. The effects of the polymorphism on plasma CETP and HDL cholesterol were independent, suggesting the presence of at least two functional variants linked to B2. A search for these variants on the coding sequence of the CETP gene failed to identify them. The effect of B2 on plasma HDL cholesterol was absent in subjects drinking < 25 grams/d of alcohol but increased commensurably, with higher values of alcohol consumption (interaction: P < 0.0001). A similar interaction was not observed for plasma CETP. The odds-ratio for myocardial infarction of B2 homozygotes decreased from 1.0 in nondrinkers to 0.34 in those drinking 75 grams/d or more. These results provide the first demonstration of a gene-environment interaction affecting HDL cholesterol levels and coronary heart disease risk.     

Increased catabolic rate of low density lipoproteins in humans with cholesteryl ester transfer protein deficiency.

The cholesteryl ester transfer protein (CETP) transfers lipids among lipoprotein particles and plays a central role in lipoprotein metabolism. Humans with genetic deficiency of CETP have both elevated HDL cholesterol and apolipoprotein A-I concentrations as well as decreased LDL cholesterol and apolipoprotein B levels. The present study was undertaken to elucidate the metabolic basis for the decreased LDL cholesterol and apo B levels in CETP deficiency. We conducted a series of in vivo apo B kinetic studies in tow unrelated homozygotes with CETP deficiency and in control subjects. A primed constant infusion of stable isotopically labeled phenylalanine was administered to the two CETP deficient subjects and control subjects and apo B kinetic parameters in VLDL, intermediate density lipoproteins, and LDL were obtained by using a multicompartmental model. The fractional catabolic rates (FCR) of LDL apo B were significantly increased in the CETP-deficient subjects (0.56 and 0.75/d) compared with the controls (mean FCR of 0.39/d). Furthermore, the production rates of apo B in VLDL and intermediate density lipoprotein were decreased by 55% and 81%, respectively, in CETP deficiency compared with the controls. In conclusion, CETP-deficient subjects were demonstrated to have substantially increased catabolic rates of LDL apo B as the primary metabolic basis for the low plasma levels of LDL apo B. This result indicates that the LDL receptor pathway may be up-regulated in CETP deficiency.     

Cholesteryl ester transfer protein gene effect on CETP activity and plasma high-density lipoprotein in European populations. The EARS Group

BACKGROUND: Variation at the cholesteryl ester transfer protein (CETP) gene locus has been implicated in determining the levels and activity of CETP, apoAI and high-density lipoprotein (HDL) plasma concentration and the risk of developing coronary artery disease. STUDY DESIGN: The effects of two common polymorphisms of CETP, TaqIB in intron 1 and isoleucine 405 to valine (I405-->V) in exon 14, were examined in a sample of 822 men age 18-28 years from 11 countries in Europe who had participated in a study (the European Atherosclerosis Research Study II) of the offspring of myocardial infarction sufferers before the age of 55 years and age-matched control subjects. RESULTS: The frequency of the rare TaqIB allele (B2) and the rare V405 allele was 0.44 and 0.28 respectively and was the same in different regions of Europe. There was a moderate linkage disequilibrium between the two polymorphisms in all the regions (D' = +0.31, P < 0.001), explained by the preferential association between the two common alleles, B1 and I405. There was a statistically significant association of the rare alleles for both the polymorphisms with lower activity of CETP (P < 0.001), 11.2% lower for the TaqIB and 7.0% lower for the I405-->V polymorphism. The TaqIB polymorphism explained 9.1% (P < 0.001) and I405-->V explained 3.7% (P < 0.001) of the variance in CETP activity, and in combination these genotypes explained 12.0% of the variance (P < 0.001). Overall, subjects whose fathers had had an early coronary heart disease had 2.4% higher plasma CETP activity than those without such family history, which became statistically significant when adjusted for the effect of the genotypes (P = 0.015), but the significance disappeared after adjustment for the effect of lipids. There was a statistically significant effect of the TaqIB polymorphism on both plasma HDL cholesterol and apoAI level (P < 0.001), with those homozygous for the rare B2 allele having the highest level. Those individuals homozygous for the rare V405 allele had the highest HDL and apoAI levels, although these effects only reached statistical significance for HDL (P < 0.03). CONCLUSION: These results suggest that the TaqIB and I405-->V polymorphisms represent two independent functional variations in the CETP gene that may affect the activity of CETP and thus plasma levels of HDL.     

The effect of the APOE polymorphism on HDL-C concentrations depends on the cholesterol ester transfer protein gene variation in a Southern European population

BACKGROUND: Apolipoprotein E (ApoE) locus has consistently shown a significant association with low-density lipoprotein cholesterol (LDL-C). However, its impact on high-density lipoprotein cholesterol (HDL-C) has been highly controversial suggesting that it may be context-dependent. We examined the gene-gene interaction between the common ApoE and the CETP polymorphisms in determining HDL-C concentrations in men and women from the general population. METHODS: 550 unrelated Caucasian subjects were randomly selected from a Mediterranean Region in Spain. Plasma lipids, anthropometric, clinical and lifestyle variables were measured. Common ApoE and CETP-TaqIB polymorphisms were determined. RESULTS: We have found a gene-gene interaction between and ApoE and the CETP loci in determining HDL-C concentrations. Thus, after adjustment for gender, age, body mass index, tobacco smoking, alcohol consumption, physical exercise and medication, carriers of the E4 allele had lower HDL-C concentrations [mean and (standard error): 40.1 (2.6) mg/dL] than E2 subjects [47.7 (3.2) mg/dL; p=0.019], and even lower than those of the E3 subjects [44.7 (1.4) mg/dL; p=0.042], only if they had the B1B1 genotype. However, mean HDL-C concentrations were higher among those with E4 allele carrying the B2 allele at the CETP gene locus [50.5 (2.3) mg/dL], and lower among E2 subjects carrying the B2 allele [45.5 (2.6) mg/dL]. This interaction was observed in both men and women. This gene-gene interaction remained statistically significant even after additional adjustment for triglycerides. CONCLUSIONS: The effect of the ApoE polymorphism on HDL-C concentrations depends on the CETP polymorphism, explaining some of the controversial results previously reported for this polymorphism.     

Genetic cholesteryl ester transfer protein deficiency caused by two prevalent mutations as a major determinant of increased levels of high density lipoprotein cholesterol.

Genetic determinants of HDL cholesterol (HDL-C) levels in the general population are poorly understood. We previously described plasma cholesteryl ester transfer protein (CETP) deficiency due to an intron 14 G(+1)-to-A mutation(Int14 A) in several families with very high HDL-C levels in Japan. Subjects with HDL-C > or = 100 mg/dl (n = 130) were screened by PCR single strand conformational polymorphism analysis of the CETP gene. Two other mutations were identified by DNA sequencing or primer-mediated restriction map modification of PCR products: a novel intron 14 splice donor site mutation caused by a T insertion at position +3 from the exon14/intron14 boundary (Int14 T) and a missense mutation (Asp442 to Gly) within exon 15 (D442G). The Int14 T mutation was only found in one family. However, the D442G and Int14 A mutations were highly prevalent in subjects with HDL-C > or = 60 mg/dl, with combined allele frequencies of 9%, 12%, 21% and 43% for HDL-C 60-79, 80-99, 100-119, and > or = 120 mg/dl, respectively. Furthermore, prevalences of the D442G and Int14 A mutations were extremely high in a general sample of Japanese men (n = 236), with heterozygote frequencies of 7% and 2%, respectively. These two mutations accounted for about 10% of the total variance of HDL-C in this population. The phenotype in a genetic compound heterozygote (Int14 T and Int14 A) was similar to that of Int14 A homozygotes (no detectable CETP and markedly increased HDL-C), indicating that the Int14 T produces a null allele. In four D442G homozygotes, mean HDL-C levels (86 +/- 26 mg/dl) were lower than in Int14 A homozygotes (158 +/- 35 mg/dl), reflecting residual CETP activity in plasma. In 47 D442G heterozygotes, mean HDL-C levels were 91 +/- 23 mg/dl, similar to the level in D442G homozygotes, and significantly greater than mean HDL-C levels in Int14 A heterozygotes (69 +/- 15 mg/dl). Thus, the D442G mutation acts differently to the null mutations with weaker effects on HDL in the homozygous state and stronger effects in the heterozygotes, suggesting dominant expression of a partially defective allele. CETP deficiency, reflecting two prevalent mutations (D442G and Int14 A), is the first example of a genetic deficiency state which is sufficiently common to explain a significant fraction of the variation in HDL-C in the general population.     

Association of plasma cholesteryl ester transfer protein activity and polymorphism with coronary artery disease extent in Tunisian type II diabetic patients

INTRODUCTION: Cholesteryl ester transfer protein (CETP), a key protein in reverse cholesterol transport, has a controversial role in atherosclerosis. OBJECTIVES:: We investigated CETP activity and polymorphism in Tunisian type II diabetes and its relationship with coronary artery disease (CAD). DESIGN AND METHODS: 173 type II diabetic patients with or without CAD were compared to 67 controls. RESULTS: The HDL cholesterol concentration was low in a Tunisian population. The B1 allele of the CETP gene was associated with a low concentration of HDL cholesterol and was more frequent in Tunisians than in other populations. In type II diabetic patients, the B1 allele was associated with increased prevalence of CAD only in men (OR=0.357, CI=0.161-0.791, P=0.01). The CETP activity increased in type II diabetic patients compared to controls (P=0.05). Furthermore, the CETP activity was increased in patients with double or triple vessel disease compared to those with single vessel disease (P=0.025). CONCLUSIONS: Our data are in favour of an association between CETP and developing CAD, as well as the extent of CAD.     

The association of HDL cholesterol concentration with the -629C>A CETP promoter polymorphism is not fully explained by its relationship with plasma cholesteryl ester transfer

OBJECTIVE: HDL cholesterol is associated with the -629C>A cholesteryl ester transfer protein (CETP) promoter polymorphism. This relationship may in part be explained via effects on plasma cholesteryl ester transfer (CET), which reflects the activity of CETP in the context of endogenous lipoproteins, but also via CET independent pathways involved in HDL metabolism. In this study, we determined the contributions of the CETP -629 C>A genotype, plasma CETP mass and cholesteryl ester transfer to HDL cholesterol. MATERIAL AND METHODS: The -629 C>A CETP gene promoter polymorphism, plasma CETP mass, CET, HDL cholesterol, lipids and apolipoprotein (apo) A-I were measured in 220 non-diabetic men without cardiovascular disease. RESULTS: Plasma CETP mass (p<0.001) and CET (p<0.001) were higher, whereas HDL cholesterol (p<0.05) and plasma apo A-I levels (p<0.05) were lower in CC compared to AA carriers. Univariate regression analysis showed that plasma CET was related to the CETP genotype (p = 0.004), plasma CETP mass (p<0.001) and triglycerides (p<0.001). In a multiple linear regression model, HDL cholesterol was related to CETP genotype (p = 0.04) and plasma triglycerides (p<0.001) without independent contributions of plasma CETP mass and CET (p>0.20 for both). CONCLUSIONS: This study suggests that, despite a relationship between a common CETP gene variation and plasma cholesteryl ester transfer, the association between CETP gene and HDL cholesterol appears to be at least in part unexplained by the plasma cholesteryl ester transfer process.     

Pharmacogenetic study of apolipoprotein E, cholesteryl ester transfer protein and hepatic lipase genes and simvastatin therapy in Brazilian subjects

BACKGROUND: In recent years, one of the focuses of genetic investigation in cardiology has been to identify the genetic factors associated with variable response to statin treatment. Polymorphisms in apolipoprotein E (APOE), cholesteryl ester transfer protein (CETP) and hepatic lipase (LIPC), proteins with major roles in lipid metabolism and homeostasis have been shown associated with lipid-lowering drugs response. METHODS: One hundred forty-six hypercholesterolemic patients of European descent were prospectively enrolled and treated with simvastatin 20 mg per day for over 6 months. Ninety-nine subjects completed the 6-month follow-up. Plasma lipids and lipoproteins were measured before and throughout the study. APOE (E*2, E*3 and E*4), LIPC-250A > G and CETP TaqIB genotypes were determined by PCR and restriction mapping. RESULTS: After a 6-month follow-up, no differences among genotypes in the percentage variation in lipid and lipoprotein concentrations for APOE and LIPC SNPs were observed. After adjustment for covariates, CETP B2B2 homozygotes showed a greater HDL-cholesterol increase compared to B1B2 and B1B1 subjects (14.1% vs. 1.7% and 1.3%, P < 0.05, respectively). CONCLUSION: Our study demonstrates that individual plasma HDL-cholesterol response to simvastatin is mediated, in part, by the CETP gene locus, with the B2 homozygotes having more benefit in HDL-C improvement than carriers of B1 allele.     

Abnormalities in apolipoprotein and lipid levels in an HIV-infected Brazilian population under different treatment profiles: the relevance of apolipoprotein E genotypes and immunological status.

HIV infection is associated with disturbances in lipid metabolism due to a host's response mechanism and the current antiretroviral therapy. The pathological appearance and progression of atherosclerosis is dependent on the presence of injurious agents in the vascular endothelium and variations in different subsets of candidate genes. Therefore, the Hha I polymorphism in the apolipoprotein E gene was evaluated in addition to triglycerides, total cholesterol, very low-density lipoprotein (VLDL), LDL, high-density lipoprotein (HDL), and apolipoprotein (apo) Al, B and E levels in 86 Brazilian HIV-infected patients and 29 healthy controls. The allele frequency for apoE in the HIV-infected group and controls was in agreement with data on the Brazilian population. Dyslipidemia was observed in the HIV group and verified by increased levels of triglycerides, VLDL and apoE, and decreased levels of HDL and apoAl. The greatest abnormalities in these biochemical variables were shown in the HIV-infected individuals whose immune function was more compromised. The effect of the genetic variation at the APOE gene on biochemical variables was more pronounced in the HIV-infected individuals who carried the apoE2/3 genotype. The highly active anti-retroviral therapy (HAART)-receiving group presented increased levels of total cholesterol and apoE. Dyslipidemia was a predictable consequence of HIV infection and the protease inhibitors intensified the increase in apoE values.     

Natriuretic peptide Val7Met substitution and risk of coronary artery disease in Greek patients with familial hypercholesterolemia

Atrial natriuretic peptide (ANP or NPPA) is the precursor protein of the form of amyloidosis called isolated atrial amyloid (IAA), which is related to the increased incidence of cardiac pathological conditions with age. Familial hypercholesterolemia (FH) patients are characterized by high concentrations of low-density lipoprotein cholesterol (LDL-C), which frequently gives rise to premature coronary artery disease (CAD). However, not all FH patients have the same clinical phenotype. The aim of the present study was to assess the relationship between ANP polymorphisms and apolipoprotein (Apo) A1 levels and CAD risk in FH patients. Transition T2238C, which leads to ANP with two additional arginines, and G664A (Val7Met) were investigated with lipid values and clinical phenotype in 83 FH patients. ApoA1 and HDL cholesterol levels were lower in GA patients compared to GG homozygotes for the G664A polymorphism. No association was found between the G664A polymorphism and CAD in our population. Moreover, ApoA1 and high-density lipoprotein cholesterol (HDL-C) levels did not differ among the different genotypes of the T2238C polymorphism, even after adjusting for age and sex. The 664A allele of the ANP polymorphism is associated with lower levels of ApoA1 and HDL-C in FH patients, but not with CAD risk. Concerning the T2238C polymorphism, no effect was found on lipid parameters or CAD incidence.     

Delayed catabolism of high density lipoprotein apolipoproteins A-I and A-II in human cholesteryl ester transfer protein deficiency.

Deficiency of the cholesteryl ester transfer protein (CETP) in humans is characterized by markedly elevated plasma concentrations of HDL cholesterol and apoA-I. To assess the metabolism of HDL apolipoproteins in CETP deficiency, in vivo apolipoprotein kinetic studies were performed using endogenous and exogenous labeling techniques in two unrelated homozygotes with CETP deficiency, one heterozygote, and four control subjects. All study subjects were administered 13C6-labeled phenylalanine by primed constant infusion for up to 16 h. The fractional synthetic rates (FSRs) of apoA-I in two homozygotes with CETP deficiency (0.135, 0.134/d) were found to be significantly lower than those in controls (0.196 +/- 0.041/d, P < 0.01). Delayed apoA-I catabolism was confirmed by an exogenous radiotracer study in one CETP-deficient homozygote, in whom the fractional catabolic rate of 125I-apoA-I was 0.139/d (normal 0.216 +/- 0.018/d). The FSRs of apoA-II were also significantly lower in the homozygous CETP-deficient subjects (0.104, 0.112/d) than in the controls (0.170 +/- 0.023/d, P < 0.01). The production rates of apoA-I and apoA-II were normal in both homozygous CETP-deficient subjects. The turnover of apoA-I and apoA-II was substantially slower in both HDL2 and HDL3 in the CETP-deficient homozygotes than in controls. The kinetics of apoA-I and apoA-II in the CETP-deficient heterozygote were not different from those in controls. These data establish that homozygous CETP deficiency causes markedly delayed catabolism of apoA-I and apoA-II without affecting the production rates of these apolipoproteins.     

Relationship of genetic variation in genes encoding apolipoprotein A-IV, scavenger receptor BI, HMG-CoA reductase, CETP and apolipoprotein E with cholesterol metabolism and the response to plant stanol ester consumption

BACKGROUND: Differences in genetic constitution may affect cholesterol metabolism and responses to diet. Identification of common variations in genes related to dietary responsiveness is therefore an attractive goal to be able to prescribe individually tailored diets for the treatment of dyslipidaemia. MATERIALS AND METHODS: We have examined relationships between serum lipids and lipoproteins, cholesterol-standardized campesterol and lathosterol concentrations with genetic variation, and the presence of a gene-diet interaction between plant stanol ester consumption. Candidate genes were apolipoprotein A-IV (apoA-IV), scavenger receptor-BI (SR-BI), cholesterol ester transfer protein (CETP), 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase, and apolipoprotein E (apoE). These relations were examined in 112 nonhypercholesterolaemic subjects, of whom 70 consumed 3.8-4.0 g plant stanol esters a day for 8 weeks. RESULTS: At baseline, high-density lipoprotein (HDL) concentrations of 1.56 +/- 0.36 mmol L(-1) in SR-BI-2 allele carriers tended to be lower compared to the 1.72 +/- 0.42 mmol L(-1) in SR-BI-1/1 subjects (P = 0.069). Cholesterol standardized lathosterol concentrations were also lower in the SR-BI-2 allele carriers (P = 0.002). Furthermore, low-density lipoprotein (LDL) cholesterol concentrations in apoE2 subjects, were lower compared to the LDL cholesterol concentration in apoE3 group (P = 0.002) and apoE4 subjects (P < 0.001). No significant differences between the polymorphisms and dietary responsiveness to plant stanol ester consumption could be found, which indicates that it is unlikely that one of the single polymorphisms analysed in this study is a major factor in explaining the variation in serum LDL cholesterol responses. CONCLUSION: These findings suggest that all subjects who want to lower their cholesterol concentration, will benefit from plant stanol ester consumption, irrespective of their apoA-IV, SR-BI, HMG-CoA reductase, CETP, or apoE genotype.     

The association of HDL cholesterol concentration with the −629C>A CETP promoter polymorphism is not fully explained by its relationship with plasma cholesteryl ester transfer

Objective. HDL cholesterol is associated with the ?629C>A cholesteryl ester transfer protein (CETP) promoter polymorphism. This relationship may in part be explained via effects on plasma cholesteryl ester transfer (CET), which reflects the activity of CETP in the context of endogenous lipoproteins, but also via CET independent pathways involved in HDL metabolism. In this study, we determined the contributions of the CETP ?629?C>A genotype, plasma CETP mass and cholesteryl ester transfer to HDL cholesterol. Material and methods. The ?629?C>A CETP gene promoter polymorphism, plasma CETP mass, CET, HDL cholesterol, lipids and apolipoprotein (apo) A‐I were measured in 220 non‐diabetic men without cardiovascular disease. Results. Plasma CETP mass (p<0.001) and CET (p<0.001) were higher, whereas HDL cholesterol (p<0.05) and plasma apo A‐I levels (p<0.05) were lower in CC compared to AA carriers. Univariate regression analysis showed that plasma CET was related to the CETP genotype (p = 0.004), plasma CETP mass (p<0.001) and triglycerides (p<0.001). In a multiple linear regression model, HDL cholesterol was related to CETP genotype (p = 0.04) and plasma triglycerides (p<0.001) without independent contributions of plasma CETP mass and CET (p>0.20 for both). Conclusions. This study suggests that, despite a relationship between a common CETP gene variation and plasma cholesteryl ester transfer, the association between CETP gene and HDL cholesterol appears to be at least in part unexplained by the plasma cholesteryl ester transfer process.     

Particle size analysis of high density lipoproteins in patients with genetic cholesteryl ester transfer protein deficiency

We investigated the detailed distribution of high-density lipoproteins (HDL) particle size in patients with cholesteryl ester transfer protein (CETP) deficiency. Serum samples pre-stained with Sudan black B were electrophoresed using 4-30% polyacrylamide gradient gels, and the Stokes diameter of HDL particles was determined in 23 patients with genetic CETP deficiency, nine patients with hyperalphalipoproteinemia and seven subjects with normal HDL cholesterol concentrations. The mean Stokes diameter of HDL particles in CETP deficient patients (11.2+/-0.6 nm) was significantly greater than hyperalphalipoproteinemia (10.7+/-0.3 nm, P<0.05) and normal subjects (9.5+/-0.4 nm, P<0.01). A significant relationship was found between mean HDL size and serum CETP mass concentrations (P<0.05). When the particle size of all detected HDL bands was investigated, extra-large HDL particles larger than 12 nm were found in 14 of the 23 patients with CETP deficiency, which were not found in any of the hyperalphalipoproteinemia patients or normal subjects. Serum low-density lipoproteins (LDL) cholesterol and total cholesterol concentrations were lower in CETP deficiencies with extra-large HDL particles than those in non-carriers (P<0.01). These results indicate that extra-large HDL may be an index to clarify the relationship between genetic CETP deficiency and atherosclerosis.     

汉族人胆固醇酯转运蛋白TaqⅠ B基因多态性与2型糖尿病的关系

目的分析胆固醇酯转运蛋白(CETP)血浆水平及其TaqⅠB基因多态性与2型糖尿病(T2DM)的关系。方法采用聚合酶链反应限制性片段长度多态性(PCR-RFLP)技术检测103例健康对照组、102例T2DM患者CETP第一内含子TaqⅠB多态性基因型,ELISA方法检测血浆CETP浓度,探讨了其对血脂、脂蛋白和apo水平的影响。结果T2DM组血浆CETP水平明显高于对照组;两组CETPTaqⅠB多态性基因型和等位基因频率分布差异无显著性意义,与性别、家族史、吸烟史及体质指数(BMI)无明显相关性。对照组CETPTaqⅠB等位基因型与血脂水平之间无明显关联性,但T2DM组不同基因型间HDL-C与apoAⅠ水平差异有统计学意义,B1等位基因频率与低HDL-C血症密切相关。结论CETP水平、CETPTaqⅠB基因多态性与T2DM脂代谢存在一定的相关性,可能是糖尿病脂代谢异常的重要遗传因素。     

Common cholesteryl ester transfer protein gene polymorphisms and the effect of atorvastatin therapy in type 2 diabetes

OBJECTIVE: The cholesteryl ester transfer protein (CETP) plays a key role in the remodeling of triglyceride (TG)-rich and HDL particles. Sequence variations in the CETP gene may interfere with the effect of lipid-lowering treatment in type 2 diabetes. RESEARCH DESIGN AND METHODS: We performed a 30-week randomized double-blind placebo-controlled trial with atorvastatin 10 mg (A10) and 80 mg (A80) in 217 unrelated patients with diabetes. RESULTS: CETP TaqIB and A-629C polymorphisms were tightly concordant (P < 0.001). At baseline, B1B1 carriers had lower plasma HDL cholesterol (0.99 +/- 0.2 vs. 1.11 +/- 0.2 mmol/l, P < 0.05), higher CETP mass (2.62 +/- 0.8 vs. 2.05 +/- 0.4 mg/l, P < 0.001), and slightly increased, though not significant, plasma TGs (2.7 +/- 1.05 vs. 2.47 +/- 0.86, P = 0.34) compared with B2B2 carriers. Atorvastatin treatment significantly reduced CETP mass dose-dependently by 18% (A10) and 29% (A80; both vs. placebo P < 0.001, A10-A80 P < 0.001). CETP mass and activity were strongly correlated (r = 0.854, P < 0.0001). CETP TaqIB polymorphism appeared to modify the effect of atorvastatin on HDL cholesterol elevation (B1B1 7.2%, B1B2 6.1%, B2B2 0.5%; P < 0.05), TG reduction (B1B1 39.7%, B1B2 38.4%, B2B2 18.4%; P = 0.08), and CETP mass reduction (B1B1 32.1%, B1B2 29.6%, B2B2 21.9%; P = 0.27, NS). Similar results were obtained for the A-629C polymorphism. CONCLUSIONS: In conclusion, the B1B1/CC carriers of the CETP polymorphisms have a more atherogenic lipid profile, including low HDL, and they respond better to statin therapy. These results favor the hypothesis that CETP polymorphisms modify the effect of statin treatment and may help to identify patients who will benefit most from statin therapy.     

Quantitative abnormalities of lipoprotein particles in multiple myeloma

Serum concentrations of total cholesterol and lipoprotein cholesterol, of apolipoproteins A I and A II and of apolipoprotein A I in lipoprotein particles (Lp A I and Lp A) were determined in 43 patients with multiple myeloma. There were striking alterations in the plasma levels of these analytes relative to normal subjects. We observed a decrease of cholesterol levels in LDL, HDL and HDL3 fractions, and of apolipoproteins A I and A II compared with normal subjects. The HDL2 cholesterol was increased. The decrease of apolipoprotein A II was more prominent than apolipoprotein A I. The decrease of apolipoprotein A I concerns only the A I (Lp A), while the A I (Lp A I) was increased. Most of these modifications were correlated with the monoclonal Ig levels.     

Lipids, lipoproteins and apolipoproteins in the elderly

The lipoprotein components were studied in connection with a population study concerning the state of health and living habits of the elderly people in Turku, Finland. Serum levels of total cholesterol, high density lipoprotein (HDL) cholesterol, triglycerides, apolipoprotein A1 (apo A1) and apolipoprotein B (apo B) of the 347 elderly people (aged 65 years or over) were measured and those of low density lipoprotein (LDL) cholesterol were calculated. The levels of total cholesterol, LDL cholesterol and apo B were significantly higher in females than in males, and the concentrations decreased with advancing age. The concentrations of HDL cholesterol and apo A1 were significantly higher in females than in males but age had no effect. Serum triglycerides behaved differently in males and females; in females age had a significant increasing effect whereas in males no age effect was observed. The apo A1/apo B ratio did not differ between males and females. Reference values of serum lipids, lipoproteins and apolipoproteins of the elderly are suggested.