The effect of the interleukin-1 cytokine family members IL-1F6 and IL-1F8 on adipocyte differentiation.

Obesity is characterized by chronic low-grade inflammation originating from expanding adipose tissue. In the present study, we examined the adipogenic expression levels of IL-1F6 and IL-1F8, both members of the IL-1 family of cytokines, and their effects on adipose tissue gene expression. Although IL-1F6 is primarily present in adipose tissue resident macrophages and induced by inflammation, IL-1F8 is absent. IL-1F6, but not IL-1F8, reduces adipocyte differentiation, as shown by a significant decrease in PPARγ gene expression. Finally, both IL-1F6 and IL-1F8 are able to induce inflammatory gene expression in mature adipocytes. In conclusion, we demonstrate for the first time that IL-1F6 is present in adipose tissue and that IL-1F6 and IL-1F8 are involved in the regulation of adipose tissue gene expression. Importantly, IL-1F6 inhibits PPARγ expression which may lead to reduced adipocyte differentiation suggesting metabolic effects of this cytokine.

Familial combined hyperlipidemia is associated with alterations in the cholesterol synthesis pathway.

OBJECTIVE: Familial combined hyperlipidemia (FCH) is a common familial lipid disorder characterized by increases in plasma total cholesterol, triglyceride, and apolipoprotein B-100 levels. In light of prior metabolic and genetic research, our purpose was to ascertain whether FCH cases had significant abnormalities of plasma markers of cholesterol synthesis and absorption as compared to unaffected kindred members. METHODS AND RESULTS: Plasma levels of squalene, desmosterol, and lathosterol (cholesterol synthesis markers) and campesterol, sitosterol, and cholestanol (cholesterol absorption markers) were measured by gas-liquid chromatography in 103 FCH patients and 240 normolipidemic relatives (NLR). Squalene, desmosterol, and lathosterol levels were 6% (0.078), 31%, (P<0.001) and 51% (P<0.001) higher in FCH as compared to NLR, and these differences were especially pronounced in women. An interaction with obesity was also noted for a subset of these markers. We did not observe any apparent differences for the cholesterol absorption markers among FCH patients and NLR. CONCLUSIONS: Our data indicate that both men and women with FCH have alterations in the cholesterol synthesis pathway, resulting in 51% higher levels of lathosterol (and additionally desmosterol in women). Plasma levels of the cholesterol precursor sterol squalene were only slightly increased (6%), suggesting enhanced conversion of squalene to lathosterol in this disorder.

Pioglitazone treatment enlarges subcutaneous adipocytes in insulin-resistant patients.

CONTEXT: Obesity-related insulin resistance is associated with an increase in adipocyte size. In rodent models, treatment with the insulin-sensitizers thiazolidinediones (TZDs) leads to the appearance of small, insulin-sensitive adipocytes. Whether such TZD-dependent morphological changes occur in adipose tissue of insulin-resistant patients is unclear. OBJECTIVE: The objective of the study was to study the effects of treatment with the TZD pioglitazone on sc adipose tissue morphology and function in insulin-resistant subjects. DESIGN: This was a placebo-controlled, randomized crossover study. SETTING: The study was conducted at a university medical center. PATIENTS: Twelve adult patients with congenital adrenal hyperplasia (CAH) characterized by insulin resistance were included in this study. INTERVENTION: After a 4-wk run-in phase, patients were treated with pioglitazone (45 mg/d) followed by placebo, each for 16 wk or vice versa. MAIN OUTCOME MEASURES: After both placebo and pioglitazone treatment, insulin sensitivity was determined by hyperinsulinemic euglycemic clamp and abdominal sc adipose tissue was obtained to measure adipocyte cell surface and expression of genes involved in glucose uptake and inflammation. RESULTS: Pioglitazone treatment significantly improved the insulin sensitivity index (placebo: 0.35 +/- 0.16 micromol/kg . min per milliunit per liter; pioglitazone 0.53 +/- 0.16 micromol/kg . min per milliunit per liter, P < 0.001) and increased mRNA expression levels of adiponectin and glucose transporter-4 in adipose tissue. The increase in insulin sensitivity was accompanied by a significant enlargement of the sc adipocyte cell surface (placebo: 2323 +/- 725 microm(2); pioglitazone 2821 +/- 885 microm(2), P = 0.03). CONCLUSIONS: In the human situation, treatment of insulin-resistant subjects with pioglitazone improves insulin sensitivity, whereas at the same time, sc adipocyte cell surface increases.

Adiponectin multimer distribution in patients with familial combined hyperlipidemia.

Adiponectin is secreted from adipocytes in different multimers, of which the high molecular weight (HMW) form is supposed to mediate favorable metabolic and anti-atherogenic effects. We determined adiponectin multimers in 29 female and 22 male patients with familial combined hyperlipidemia (FCH) and 51 age-, gender-, and BMI-matched controls in relation to cardiovascular disease (CVD). We observed a clear sexual dimorphism of total adiponectin and its multimers. Female, but not male, FCH patients had significant lower total adiponectin and both HMW and low molecular weight (LMW) adiponectin than controls. The adiponectin sensitivity index (ASI), reflected by HMW/total adiponectin, and the LMW/HMW adiponectin ratio did not differ significantly between FCH females and control females. However, FCH females with CVD exhibited significantly lower ASI (34.2+/-10.1% vs 46.0+/-7.1%) and higher LMW/HMW ratio (1.5+/-0.8 vs 0.7+/-0.3) compared to FCH females without CVD, reflecting a more atherogenic adiponectin multimer distribution.

Serum hepcidin levels are innately low in HFE-related haemochromatosis but differ between C282Y-homozygotes with elevated and normal ferritin levels.

HFE C282Y-homozygosity has been associated with low hepcidin expression, leading to increased ferritin levels. However, serum hepcidin protein levels have not been documented in humans. In the current study, we compared serum hepcidin levels of newly diagnosed HFE C282Y-homozygotes with (N = 15) and without (N = 7) elevated serum ferritin levels to levels of 40 controls (20 heterozygotes and 20 wild types). In addition, hepcidin levels of four C282Y homozygotes were investigated during the course of all phlebotomy treatment phases. Serum hepcidin levels were lower in HFE C282Y-homozygotes (median; 25th-75th percentile: 1.88; 0.78-2.77 nmol/l) compared to controls (2.74; 1.45-5.39). Hepcidin/ferritin ratios were also lower in homozygotes. Homozygotes with an elevated serum ferritin had a higher serum hepcidin but a lower hepcidin/ferritin ratio than those with normal ferritin (2.28; 1.62-3.23 nmol/l hepcidin vs. 0.80; 0.60-1.29 and 3.63; 2.72-7.59 pmol hepcidin/microg ferritin vs. 13.2; 5.15-14.2). Serum hepcidin decreased during the depletion phase of phlebotomy and remained low during maintenance. This study showed that serum hepcidin is innately low in HFE-related haemochromatosis. Elevated ferritin levels were associated with increased hepcidin levels while erythropoiesis lead to lower hepcidin levels. During depletion, therefore, hepcidin levels are decreased, which may exacerbate intestinal iron absorption.

Paraoxonase (PON1) and the risk for coronary heart disease and myocardial infarction in a general population of Dutch women.

There is strong evidence from both animal- and in vitro-models that paraoxonase (PON1) is involved in the onset of cardiovascular disease. In humans there is no consensus on this issue and therefore we investigated the effect of PON1 genotype and activity on the incidence of coronary heart disease (CHD) and acute myocardial infarction (AMI) in a large prospective cohort of 17,357 middle-aged women. We applied a case-cohort design using the CHD (n=211) and AMI cases (n=71) and a random sample from the baseline cohort (n=1527). A weighted Cox proportional hazards model was used to estimate age- and multivariate-adjusted hazard ratios (HR) for the PON1 genetic variants (192Q > R and -107C > T) and tertiles of the PON1 arylesterase- and paraoxonase activities. Neither the PON1 genetic variants, nor the PON1 activities affected the incidence of CHD in general, but, an increased paraoxonase activity was associated with a higher risk of AMI: the second and third tertile HR were 1.31 and 2.07, respectively (P-trend=0.029, multivariate model). In the subgroup of never-smokers, paraoxonase activity was associated with an increased risk for AMI: the second and third tertile HR were 4.1 and 4.7, respectively (P-trend=0.009, multivariate model). Additionally, when compared to the lowest paraoxonase tertile in never-smokers, the highest paraoxonase tertile in current-smokers showed a 19.2-fold higher risk for AMI (95%CI: 5.3-69.5, P < 0.0001, multivariate model). In conclusion, this study shows that in middle-aged women paraoxonase activity was associated with an increased risk for AMI and that the risk was modified by the effects of smoking.

Paraoxonase (PON1) is associated with familial combined hyperlipidemia.

Familial combined hyperlipidemia (FCH) is a common genetic lipid disorder of which the molecular basis still remains to be elucidated. Since the HDL-associated enzyme serum paraoxonase (PON1) is associated with variation in serum lipids and lipoproteins, we determined whether variation in PON1 also contributes to the FCH phenotype. The study population consisted of 32 well-defined families with FCH, including 103 FCH patients and 240 normolipidemic relatives (NLR). In addition to plasma lipids and lipoproteins we determined PON1 activity (arylesterase- and paraoxonase activity) as well as the common genetic variants -107C>T, 55L>M and 192Q>R in the PON1 gene. The arylesterase activity was significantly higher in FCH patients when compared to NLR (P<0.001). In the total population, the PON1 genetic variants associated with the highest arylesterase activity (-107CC and 55LL) also associated with higher levels of total cholesterol, apolipoprotein B, triglycerides and VLDL-cholesterol and decreased levels of HDL-cholesterol. In support, the combination of the -107CC with the 55LL genotype associated with a significant increased risk for FCH when compared to the -107TT/55MM genotype (odds ratio 5.0 (95% CI, 1.3-19.1, P=0.02)). In conclusion, in this population of subjects from well-defined families with FCH, PON1 is biochemically and genetically associated with FCH.

Regulation of hepcidin: insights from biochemical analyses on human serum samples.

Knowledge of hepcidin regulation is foremost gained by in vitro studies. We aimed to translate this knowledge into the human in vivo situation. Therefore, we measured serum markers as transferrin saturation (TS), soluble transferrin receptor (sTfR), and C-reactive protein (CRP) in parallel with hepcidin and prohepcidin in patients with iron metabolism disorders and controls. To assess sTfR as erythropoietic activity-associated factor in hepcidin regulation, we studied its influence on hepcidin expression in HepG2 cells. Results showed that sTfR highly associates with erythropoietic activity that strongly interfered with the iron store regulation of hepcidin. HepG2 expression results display an inverse association between hepcidin and sTfR. Inflammation was strongly related to increased hepcidin levels regardless of the iron store and erythropoietic activity status. In contrast, prohepcidin failed to correlate to any other parameter. In conclusion, these studies verify that previous conclusions based on in vitro studies on hepcidin regulation are also likely to apply to human patients. This is underscored by a simple algorithm, based on parameters reflecting the main regulating pathways, that accurately predict the actual measured hepcidin levels. Future studies are needed to validate the combined utility of this predictive algorithm together with actual measured hepcidin levels in clinical diagnosis.

Plasma annexin A5 level relates inversely to the severity of coronary stenosis.

Exogenous radiolabeled annexin A5 is taken up by atherosclerotic tissue. We measured endogenous plasma annexin A5 and circulating oxidized low-density lipoprotein (oxLDL), a biochemical marker of atherosclerosis, in men with either severe angiographically determined coronary stenosis (n=90) or no or only minor stenosis (n=96). Men without history of cardiac disease or treatment and free of plaques in the carotid artery (by ultrasonography) were taken as controls (n=87). Opposite to oxLDL, annexin A5 decreased at increasing severity of stenosis. OxLDL was lowest and annexin A5 was highest in controls. Percentage differences between groups were higher for annexin A5 than for oxLDL, and highest for oxLDL/annexin A5 ratio. The oxLDL/annexin A5 ratio is a better marker of the severity of coronary stenosis than oxLDL alone, may reflect the presence and extent of the atherosclerotic cardiovascular disease, and might prove useful for preclinical screening purposes.

Pulse wave velocity in familial combined hyperlipidemia.

BACKGROUND: In the present cross-sectional study we investigated whether familial combined hyperlipidemia (FCH) is associated with an increased arterial wall stiffness, and whether measures of arterial wall stiffness in FCH family members could contribute to cardiovascular risk stratification. METHODS: Ninety-eight subjects with FCH and 230 unaffected relatives filled out a questionnaire about their smoking habits, medical history, and medication use. Fasting venous blood was drawn after discontinuation of any lipid-lowering medication. Pulse wave velocity (PWV) and augmentation index (AIx) were determined by applanation tonometry as surrogate markers of arterial stiffness. RESULTS: Patients with FCH had a significantly increased PWV compared to their unaffected relatives (9.07 +/- 2.75 v 8.28 +/- 2.62 m/sec, P = .005), whereas AIx was not increased (21.6 +/- 12.7 v 15.6 +/- 14.1, P = .96). Age- and gender-adjusted PWV was an equally good predictor of the presence of cardiovascular disease (CVD) in FCH family members as the most predictive combination of age- and gender-adjusted clinical and biochemical risk factors, including total cholesterol, HDL-cholesterol, and systolic blood pressure (area under the receiver operating curve (ROC) [AUC] 0.83 [0.76-0.90] v AUC 0.84 [0.78-0.91], P = .83). Addition of PWV to the multivariable prognostic model, including these age- and gender-adjusted traditional risk factors, did not increase the predictive ability for CVD (AUC 0.84 [0.79-0.89]). CONCLUSIONS: Patients with FCH are characterized by an increased arterial stiffness. The PWV predicts the presence of CVD equally well as any combination of clinical and traditional biochemical risk factors, but PWV has no additional value in addition to traditional risk factor screening in FCH families.

Serum non-transferrin-bound iron and low-density lipoprotein oxidation in heterozygous hemochromatosis.

UNLABELLED: Non-transferrin-bound iron (NTBI) is implicated in lipid peroxidation but the relation with oxidative modification of low-density lipoprotein (LDL) is not known. We assessed variables reflecting in vitro and in vivo LDL oxidation in two age- and sex-matched groups (n=23) of hereditary hemochromatosis heterozygotes (C282Y), characterized by a clear difference in mean serum NTBI (1.55+/-0.57 micromol/L vs 3.70+/-0.96 micromol/L). Plasma level of oxidized LDL (absolute and relative to plasma apolipoprotein B), and IgG and IgM antibodies to oxidized LDL, markers of in vivo LDL oxidation, did not differ between the groups with low and high serum NTBI. Mean lag-phase of in vitro LDL oxidation was also not significantly different between both study groups. CONCLUSION: these findings do not support the hypothesis that NTBI promotes oxidative modification of plasma LDL.

High-throughput genotyping with infrared fluorescence allele specific hybridization (iFLASH): a simple, reliable and low-cost alternative.

OBJECTIVES: To develop and validate a novel genotyping approach, named infrared Fluorescence Allele Specific Hybridization (iFLASH), which combines the principles of allele specific oligonucleotide (ASO) hybridization with the advanced possibilities of infrared imaging. DESIGN AND METHODS: As an example, we genotyped the 55L > M and the 192Q > R common genetic variants of the paraoxonase-1 gene in 92 DNA samples using the iFLASH technique, and validated the outcomes with the restriction fragment length polymorphism (RFLP) and TAQman genotyping assays. RESULTS: There was a 100 percent agreement in genotype outcome among the three methods. CONCLUSIONS: Although we found complete unity in genotype outcome, the iFLASH assay has essential advantages over the RFLP and TAQman genotyping assays. First, the iFLASH technique is capable of handling up to 1536 samples per assay, which makes it a suitable technique for high-throughput genotyping. Secondly, because the costs per assay are lower, high-throughput genotyping with iFLASH is affordable.

Elevated leptin levels in subjects with familial combined hyperlipidemia are associated with the increased risk for CVD.

Familial combined hyperlipidemia (FCH) is characterized by hypercholesterolemia and/or hypertriglyceridemia and is associated with premature cardiovascular disease (CVD). Other features of FCH are obesity and insulin resistance. Serum leptin levels have been associated with obesity, insulin resistance and CVD. The aim of this study was to determine whether increased leptin levels contribute to the FCH phenotype and its increased risk for CVD. The study population comprised 644 subjects, including 158 FCH patients. Leptin levels were determined, using a commercially available ELISA. For both males and females, the mean leptin level (ng/ml) was higher in FCH patients compared to normolipidemic relatives and spouses. However, after standardization for BMI and insulin resistance, these differences disappeared. The 90th percentile of the leptin level, standardized for BMI, insulin resistance and gender, was associated with an increased risk for CVD in FCH patients (odds ratio=2.9, 95% CI=1.1-8.0) and in non-FCH subjects (odds ratio=3.4, 95% CI=1.3-9.0). The overall increased risk for CVD, associated with a leptin level >90th percentile, was 3.3 (95% CI=1.7-6.4). We conclude that in patients with FCH, leptin levels are increased in proportion to their higher BMI and the presence of insulin resistance. These increased leptin levels are associated with an increased risk for CVD both in FCH patients and non-FCH subjects, independent of BMI, insulin resistance and gender.

Decreased adiponectin levels in familial combined hyperlipidemia patients contribute to the atherogenic lipid profile.

Familial combined hyperlipidemia (FCH) is characterized by increased levels of total cholesterol, triglycerides, and/or apolipoprotein B. Other features of FCH are obesity and insulin resistance. Adiponectin is a secretory product of the adipose tissue. Low levels of adiponectin are associated with insulin resistance and accelerated atherosclerosis. The aim of this study was to determine whether decreased adiponectin levels are associated with FCH and its phenotypes. The study population comprised 644 subjects, including 158 patients with FCH. Serum adiponectin levels were determined using a commercially available ELISA. For both males and females, the mean adiponectin level (microg/ml) was significantly lower in FCH patients [2.0 (1.8-2.2) and 2.5 (2.3-2.8), respectively] compared with normolipidemic relatives [2.3 (2.2-2.5) and 3.1 (2.8-3.3), respectively] and spouses [2.4 (2.1-2.7) and 3.2 (2.8-3.6), respectively]. These differences remain significant after adjusting for waist circumference and insulin resistance. Low adiponectin level in FCH patients was a superior independent predictor of the atherogenic lipid profile, including high triglyceride levels, low HDL-cholesterol levels, and the amount of small, dense LDL present, compared with both obesity and insulin resistance. Low adiponectin levels may contribute to the atherogenic lipid profile in FCH, independent of insulin resistance and obesity, as measured by waist circumference. This finding implies a role of adipose tissue metabolism in the pathophysiology of FCH.

Paraoxonase-1 and linoleic acid oxidation in familial hypercholesterolemia.

Serum paraoxonase-1 (PON1) is a high-density lipoprotein-associated enzyme that can inhibit low-density lipoprotein (LDL) oxidation in vitro. The role of PON1 in vivo still remains to be clarified. We investigated the effect of PON1 genotype (-107C > T and 192Q > R), concentration, paraoxonase activity, and arylesterase activity on the early phase of lipid peroxidation in plasma samples of 110 patients with heterozygous familial hypercholesterolemia. The degree of lipid oxidation was assessed by quantitation of oxidized-linoleic acid (the most abundant fatty acid present in LDL) using high performance liquid chromatography. We found a significant inverse correlation between paraoxonase activity and the oxidized-linoleic acid concentration (r = -0.22, P = 0.03), independent of baseline linoleic acid levels. These findings support an anti-oxidative role for PON1 in patients with FH, and thus may give insight into the functioning of PON1 in vivo.

Indications that paraoxonase-1 contributes to plasma high density lipoprotein levels in familial hypercholesterolemia.

HDL-associated paraoxonase type 1 (PON1) can protect LDL and HDL against oxidative modification in vitro and therefore may protect against cardiovascular disease. We investigated the effects of PON1 levels, activity, and genetic variation on high density lipoprotein-cholesterol (HDL-C) levels, circulating oxidized LDL (OxLDL), subclinical inflammation [high-sensitive C-reactive protein (Hs-CRP)], and carotid atherosclerosis. PON1 genotypes (L55M, Q192R, -107C/T, -162A/G, -824G/A, and -907G/C) were determined in 302 patients with familial hypercholesterolemia. PON1 activity was monitored by the hydrolysis rate of paraoxon, diazoxon, and phenyl acetate. PON1 levels, OxLDL, and Hs-CRP were determined using an immunoassay. The genetic variants of PON1 that were associated with high levels and activity of the enzyme were associated with higher HDL-C levels (P values for trend: 0.008, 0.020, 0.042, and 0.037 for L55M, Q192R, -107C/T, and -907G/C, respectively). In addition to the PON1 genotype, there was also a positive correlation between PON1 levels and activity and HDL-C (PON1 levels: r = 0.37, P < 0.001; paraoxonase activity: r = 0.23, P = 0.01; diazoxonase activity: r = 0.29, P < 0.001; arylesterase activity: r = 0.19, P = 0.03). Our observations support the hypothesis that both PON1 levels and activity preserve HDL-C in plasma.

Effects of atorvastatin and simvastatin on low-density lipoprotein subfraction profile, low-density lipoprotein oxidizability, and antibodies to oxidized low-density lipoprotein in relation to carotid intima media thickness in familial hypercholesterolemia.

BACKGROUND: Little is known about the effects of statins on the quality of circulating low-density lipoprotein (LDL) in relation to atherosclerosis progression. METHODS: In a double-blind, randomized trial of 325 patients with familial hypercholesterolemia (FH), we assessed the effects of high-dose atorvastatin (80 mg) and conventional-dose simvastatin (40 mg) on LDL subfraction profile (n = 289), LDL oxidizability (n = 121), and circulating autoantibodies to oxidized LDL (n = 220). Progression of atherosclerosis was measured by carotid intima media thickness (IMT) (n = 325). RESULTS: At baseline, the patients showed an intermediate LDL subfraction profile composed of three LDL subfractions (LDL1, LDL2, LDL3), with LDL2 as the predominant subfraction. A strong negative correlation was found between plasma triglycerides and the LDL subfraction profile (r = -.64, p = .000). Both plasma levels of triglycerides and small dense LDL3 correlated weakly with baseline IMT (r = .11, p = .04 and r = .15, p = .01, respectively; n = 289). No association was found between baseline IMT and oxidation parameters or circulating antibodies to oxidized LDL. Atorvastatin reduced triglycerides, LDL cholesterol, and all LDL subfractions to a greater extent than did simvastatin and led to regression of carotid IMT. However, LDL subfraction pattern and plasma levels of autoantibodies to oxidized LDL remained unchanged in both treatment groups, and LDL oxidizability increased minimally to a similar extent in both groups. Significant treatment differences were found for the rate of in vitro oxidation of LDL and the amount of dienes formed during in vitro oxidation of LDL, which both decreased more following atorvastatin than after simvastatin. CONCLUSION: Change of IMT after statin treatment was associated with baseline IMT (r = .41), LDL cholesterol (r = -.20), and the amount of dienes formed during in vitro oxidation of LOL (r = .28) but not with plasma levels of antibodies to oxidized LDL, in vitro LDL oxidizability, and LDL subfraction profile.

Atorvastatin and simvastatin in patients on hemodialysis: effects on lipoproteins, C-reactive protein and in vivo oxidized LDL.

BACKGROUND: Cardiovascular disease as a result of accelerated atherogenesis is common in patients with end-stage renal disease (ESRD). Dyslipidemia may be a major contributor in this process and can be influenced by lipid-lowering drugs (statins). Moreover, statins may exhibit additional inhibitory effects on the atherogenesis, such as a modulation of the immune system as triggered by oxidatively modified LDL and a reduction of the inflammatory marker C-reactive protein (CRP). METHODS: We evaluated in a single-blind randomized trial of 28 ESRD patients on hemodialysis, the dose-depending effects of both atorvastatin and simvastatin on lipids, lipoproteins, LDL particle heterogeneity, high sensitive-CRP, and markers of in vivo LDL oxidation. RESULTS: Both statin therapies significantly lowered total plasma cholesterol and LDL-cholesterol concentrations to the same extent, whereas reduction in the concentrations of triglyceride-rich particles was less pronounced. Furthermore, statin therapy reduced LDL cholesterol in all LDL subfractions, without altering the overall LDL particle density. After both statins plasma hs-CRP concentrations were not significantly reduced; parameters of in vivo LDL oxidation (plasma ox-LDL concentration and the oxidation level of isolated LDL), were significantly decreased. Autoantibodies against ox-LDL, however, did not change during this trial period. CONCLUSIONS: These results show that atorvastatin and simvastatin exhibit comparable favourable effects on lipid profiles in ESRD. Moreover, the reduction of in vivo oxidatively modified LDL as shown in this ESRD population, may indicate that these statins exhibit favourable effects on oxidative stress in vivo.