Klaus von Bergmann

Beneficial Effects of High Dietary Fiber Intake in Patients with Type 2 Diabetes Mellitus

BACKGROUND The effect of increasing the intake of dietary fiber on glycemic control in patients with type 2 diabetes mellitus is controversial. METHODS In a randomized, crossover study, we assigned 13 patients with type 2 diabetes mellitus to follow two diets, each for six weeks: a diet containing moderate amounts of fiber (total, 24 g; 8 g of soluble fiber and 16 g of insoluble fiber), as recommended by the American Diabetes Association (ADA), and a high-fiber diet (total, 50 g; 25 g of soluble fiber and 25 g of insoluble fiber), containing foods not fortified with fiber (unfortified foods). Both diets, prepared in a research kitchen, had the same macronutrient and energy content. We compared the effects of the two diets on glycemic control and plasma lipid concentrations. RESULTS Compliance with the diets was excellent. During the sixth week, the high-fiber diet, as compared with the the sixth week of the ADA diet, mean daily preprandial plasma glucose concentrations were 13 mg per deciliter [0.7 mmol per liter] lower (95 percent confidence interval, 1 to 24 mg per deciliter [0.1 to 1.3 mmol per liter]; P=0.04) and mean median difference, daily urinary glucose excretion 1.3 g (0.23; 95 percent confidence interval, 0.03 to 1.83 g; P= 0.008). The high-fiber diet also lowered the area under the curve for 24-hour plasma glucose and insulin concentrations, which were measured every two hours, by 10 percent (P=0.02) and 12 percent (P=0.05), respectively. The high-fiber diet reduced plasma total cholesterol concentrations by 6.7 percent (P=0.02), triglyceride concentrations by 10.2 percent (P=0.02), and very-low-density lipoprotein cholesterol concentrations by 12.5 percent (P=0.01). CONCLUSIONS A high intake of dietary fiber, particularly of the soluble type, above the level recommended by the ADA, improves glycemic control, decreases hyperinsulinemia, and lowers plasma lipid concentrations in patients with type 2 diabetes.

Disruption of Abcg5 and Abcg8 in mice reveals their crucial role in biliary cholesterol secretion

Cholesterol and other sterols exit the body primarily by secretion into bile. In patients with sitosterolemia, mutations in either of two ATP-binding cassette (ABC) half-transporters, ABCG5 or ABCG8, lead to reduced secretion of sterols into bile, implicating these transporters in this process. To elucidate the roles of ABCG5 and ABCG8 in the trafficking of sterols, we disrupted Abcg5 and Abcg8 in mice (G5G8−/−). The G5G8−/− mice had a 2- to 3-fold increase in the fractional absorption of dietary plant sterols, which was associated with an ≈30-fold increase in plasma sitosterol. Biliary cholesterol concentrations were extremely low in the G5G8−/− mice when compared with wild-type animals (mean = 0.4 vs. 5.5 μmol/ml) and increased only modestly with cholesterol feeding. Plasma and liver cholesterol levels were reduced by 50% in the chow-fed G5G8−/− mice and increased 2.4- and 18-fold, respectively, after cholesterol feeding. These data indicate that ABCG5 and ABCG8 are required for efficient secretion of cholesterol into bile and that disruption of these genes increases dramatically the responsiveness of plasma and hepatic cholesterol levels to changes in dietary cholesterol content.

Inhibition of Intestinal Cholesterol Absorption by Ezetimibe in Humans

Background—Ezetimibe has been shown to inhibit cholesterol absorption in animal models, but studies on cholesterol absorption in humans have not been performed thus far. Methods and Results—The effect of ezetimibe (10 mg/d) on cholesterol absorption and synthesis, sterol excretion, and plasma concentrations of cholesterol and noncholesterol sterols was investigated in a randomized, double-blind, placebo-controlled, crossover study in 18 patients with mild to moderate hypercholesterolemia. Treatment periods lasted 2 weeks with an intervening 2-week washout period. Fractional cholesterol absorption rates averaged 49.8±13.8% on placebo and 22.7±25.8% on ezetimibe, indicating a reduction of 54% (geometric mean ratio;P < 0.001). Cholesterol synthesis increased by 89% from 931±1027 mg/d on placebo to 1763±1098 mg/d on ezetimibe (P <0.001), while the ratio of lathosterol-to-cholesterol, an indirect marker of cholesterol synthesis, was increased by 72% (P <0.001). Bile acid synthesis was insignificantly increased (placebo: 264±209 mg/d, ezetimibe: 308±184 mg/d;P =0.068). Mean percent changes from baseline for LDL and total cholesterol after ezetimibe treatment were −20.4% and −15.1%, respectively (P <0.001 for both), whereas campesterol and sitosterol were decreased by −48% and − 41%, respectively. Conclusion—In humans, ezetimibe inhibits cholesterol absorption and promotes a compensatory increase of cholesterol synthesis, followed by clinically relevant reductions in LDL and total cholesterol concentrations. Ezetimibe also reduces plasma concentrations of the noncholesterol sterols sitosterol and campesterol, suggesting an effect on the absorption of these compounds as well.

Treatment with simvastatin in normocholesterolemic patients with Alzheimer's disease: A 26-week randomized, placebo-controlled, double-blind trial

In a randomized, placebo‐controlled, double‐blind study, we investigated whether statins alter cholesterol metabolites and reduce Aβ levels in the cerebrospinal fluid of 44 patients with Alzheimers disease. Individuals were given up to 80mg simvastatin daily or placebo for 26 weeks. Overall, simvastatin did not significantly alter cerebrospinal fluid levels of Aβ40 and Aβ42. In post hoc analysis, simvastatin significantly decreased Aβ40 levels in the cerebrospinal fluid of patients with mild Alzheimers disease. The reduction of Aβ40 correlated with the reduction of 24S‐hydroxycholesterol. These changes were not observed in more severely affected patients.

High-dose statins and skeletal muscle metabolism in humans: A randomized, controlled trial

Myopathy, probably caused by 3‐hydroxy‐3‐methylglutaryl‐coenzyme A reductase inhibition in skeletal muscle, rarely occurs in patients taking statins. This study was designed to assess the effect of high‐dose statin treatment on cholesterol and ubiquinone metabolism and mitochondrial function in human skeletal muscle.

Increased frequency of cytochrome P450 2D6 poor metabolizers among patients with metoprolol‐associated adverse effects

The CYP2D6 genotype is a major determinant of interindividual differences in metoprolol plasma clearance. Cytochrome P450 2D6 (CYP2D6) poor metabolizers exhibit 3‐ to 10‐fold higher plasma concentrations after administration of metoprolol than extensive metabolizers. However, the impact of the CYP2D6 genotype on the occurrence of adverse effects of metoprolol remains controversial. This study addressed whether the incidence of poor metabolizers was higher in patients with metoprolol‐associated adverse effects than in the German population at large.

Vascular Effects of Diet Supplementation With Plant Sterols

OBJECTIVES The purpose of this study was to evaluate vascular effects of diet supplementation with plant sterol esters (PSE). BACKGROUND Plant sterol esters are used as food supplements to reduce cholesterol levels. Their effects on endothelial function, stroke, or atherogenesis are not known. METHODS In mice, plasma sterol concentrations were correlated with endothelial function, cerebral lesion size, and atherosclerosis. Plasma and tissue sterol concentrations were measured by gas-liquid chromatography-mass spectrometry in 82 consecutive patients with aortic stenosis. RESULTS Compared with those fed with normal chow (NC), wild-type mice fed with NC supplemented with 2% PSE showed increased plant sterol but equal cholesterol plasma concentrations. The PSE supplementation impaired endothelium-dependent vasorelaxation and increased cerebral lesion size after middle cerebral artery occlusion. To test the effects of cholesterol-lowering by PSE, apolipoprotein E (ApoE)-/- mice were randomized to Western-type diet (WTD) with the addition of PSE or ezetimibe (EZE). Compared with WTD, both interventions reduced plaque sizes; however, WTD + PSE showed larger plaques compared with WTD + EZE (20.4 +/- 2.1% vs. 10.0 +/- 1.5%). Plant sterol plasma concentration strongly correlated with increased atherosclerotic lesion formation (r = 0.50). Furthermore, we examined plasma and aortic valve concentrations of plant sterol in 82 consecutive patients with aortic stenosis. Patients eating PSE-supplemented margarine (n = 10) showed increased plasma concentrations and 5-fold higher sterol concentrations in aortic valve tissue. CONCLUSIONS Food supplementation with PSE impairs endothelial function, aggravates ischemic brain injury, effects atherogenesis in mice, and leads to increased tissue sterol concentrations in humans. Therefore, prospective studies are warranted that evaluate not only effects on cholesterol reduction, but also on clinical endpoints.

ABCA1 modulates CSF cholesterol levels and influences the age at onset of Alzheimer’s disease

Increased formation of the beta-amyloid peptide (Abeta) is a central event in the pathogenesis of Alzheimers disease (AD). High cellular cholesterol load promotes Abeta formation. The ATP-binding cassette transporter A1 (ABCA1) mediates cholesterol efflux from cells. We hypothesized that genetic variability in ABCA1 may influence cholesterol metabolism in the central nervous system (CNS) and, thus, interfere with the development of AD. Healthy elderly carriers of the A allele of a non-synonymous (R219K) single nucleotide polymorphism (SNP) in the ABCA1 gene (rs2234884) had on average 33% lower total cholesterol in cerebrospinal fluid (CSF) than non-carriers. In 169 patients with late onset, sporadic AD, this allele was associated with delayed age at onset of the disease by 1.7 years on average. Rs2234884 and another non-synonymous SNP (R1587K) in ABCA1 (rs2234886) failed to show significant association with the risk for AD. We conclude that genetic variability of ABCA1 influences the development of AD, possibly by interfering with CNS cholesterol homeostasis.

Acute effects of pravastatin on cholesterol synthesis are associated with slco1b1 (encoding Oatp1b1) haplotype *17

Objective The aim was to investigate whether polymorphisms in the SLCO1B1 gene, encoding the hepatic uptake transporter OATP1B1, influence the short-term effects of pravastatin on cholesterol synthesis. Methods We determined plasma concentrations of lathosterol and cholesterol up to 12 h after intake of a single dose of 40 mg pravastatin in 41 healthy Caucasian subjects, in whom SLCO1B1 single nucleotide polymorphisms (SNP; 521T>C and −11187G>A) and haplotypes (*15B and *17) had been previously shown to be associated with considerably elevated plasma pravastatin levels. Results The effects of pravastatin on plasma lathosterol concentration and lathosterol to cholesterol concentration ratio, which are established markers of the rate of cholesterol synthesis in vivo, were significantly smaller among the three heterozygous carriers of the SLCO1B1 *17 haplotype (containing the −11187G>A, 388A>G and 521T>C SNPs) as compared with non-carriers. Significant inverse relationships were found between pravastatin area under the concentration–time curve (AUC) values and effects of pravastatin on lathosterol and lathosterol to cholesterol ratio among the whole study population. Conclusion These results suggest that uptake of pravastatin into hepatocytes is impaired in carriers of the SLCO1B1 haplotype *17, resulting in higher plasma pravastatin concentrations but lower concentrations of pravastatin in hepatocytes and thereby in a smaller inhibitory effect on cholesterol synthesis. The cholesterol-lowering response to pravastatin may be impaired in carriers of the *17 haplotype.

Cerebrospinal fluid 24S-hydroxycholesterol is increased in patients with Alzheimer's disease compared to healthy controls

Experiments in cell cultures indicate that accumulation of cholesterol in hippocampal neurons results in an accelerated cleavage of amyloid precursor protein into amyloidogenic components. To be eliminated from the brain, cholesterol is converted to 24S-hydroxycholesterol which may reflect cerebral cholesterol turnover. We investigated cerebrospinal fluid (CSF) concentrations of 24S-hydroxycholesterol in a group of 14 Alzheimers disease (AD) patients and ten healthy controls without any cognitive deficits or psychiatric or neurological disorders. To exclude potential effects of circulating plasma cholesterol on CSF 24S-hydroxycholesterol levels, only patients and controls with cholesterol levels in the normal range of 150-230 mg/dl were included. We found significantly elevated 24S-hydroxycholesterol CSF but not plasma levels in AD patients compared with healthy controls. Our results demonstrate that CSF 24S-hydroxycholesterol is increased in AD. This effect does not seem to be triggered by plasma cholesterol levels since the latter did not significantly differ between groups.