phytosterols and Aortic-Valve-Stenosis

The most common phytosterols in the human diet are sitosterol and campesterol, which originate exclusively from plant derived food. These phytosterols are taken up by NPC1L1 transport from the intestine into the enterocytes together with cholesterol and other xenosterols. Phytosterols are selectively pumped back from the enterocytes into the intestinal lumen and on the liver site from hepatocytes into bile by heterodimeric ABCG5/G8 transporters. Like cholesterol, both phytosterols are prone to ring and side chain oxidation. It could be shown that oxyphytosterols, found in atherosclerotic tissue, are most likely of in situ oxidation (Schött et al.; Biochem. Biophys. Res. Commun. 2014 Apr 11;446(3):805-10). However, up to now, the entire mechanism of phytosterol oxidation is not clearly understood. Here, we provide further information about the oxidation of sitosterol and the transport of its oxidation products out of tissue. Our survey includes data of 104 severe aortic stenosis patients that underwent an elective aortic valve cusp replacement. We studied their phytosterol concentrations, as well as absolute and substrate corrected oxyphytosterol levels in plasma and valve cusp tissue. In addition, we also examined phytosterol and oxyphytosterol concentrations in plasma and tissues (from brain and liver) of 10 male ApoE knockout mice. The ratio of 7-oxygenated-sitosterol-to-sitosterol exceeds the ratio for 7-oxygenated-campesterol-to-campesterol in plasma and tissue of both humans and mice. This finding indicates that sitosterol is oxidized to a higher amount than campesterol and that a selective oxidative mechanism might exist which can differentiate between certain phytosterols. Secondly, the concentrations of oxyphytosterols found in plasma and tissue support the idea that oxysitosterols are preferably transported out of individual tissues. Selective oxidation of sitosterol and preferred transport of sitosterol oxidation products out of tissue seem to be a metabolic pathway of forced sitosterol clearance from tissue compartments.

Topics: Adult; Aged; Aged, 80 and over; Animals; Aortic Valve; Aortic Valve Stenosis; Apolipoproteins E; Biological Transport; Brain; Cholesterol; Female; Gas Chromatography-Mass Spectrometry; Heart Valve Prosthesis; Humans; Liver; Male; Mice; Mice, Knockout; Middle Aged; Oxidation-Reduction; Oxygen; Oxysterols; Phytosterols; Sitosterols

The aim of the study was to evaluate the relationship between phytosterols, oxyphytosterols, and other markers of cholesterol metabolism and concomitant coronary artery disease (CAD) in patients with severe aortic stenosis who were scheduled for elective aortic valve replacement. Markers of cholesterol metabolism (plant sterols and cholestanol as markers of cholesterol absorption and lathosterol as an indicator of cholesterol synthesis) and oxyphytosterols were determined in plasma and aortic valve tissue from 104 consecutive patients with severe aortic stenosis (n=68 statin treatment; n=36 no statin treatment) using gas chromatography-flame ionization and mass spectrometry. The extent of CAD was determined by coronary angiography prior to aortic valve replacement. Patients treated with statins were characterized by lower plasma cholesterol, cholestanol, and lathosterol concentrations. However, statin treatment did not affect the sterol concentrations in cardiovascular tissue. The ratio of campesterol-to-cholesterol was increased by 0.46±0.34μg/mg (26.0%) in plasma of patients with CAD. The absolute values for the cholesterol absorption markers sitosterol and campesterol were increased by 18.18±11.59ng/mg (38.8%) and 11.40±8.69ng/mg (30.4%) in the tissues from patients with documented CAD compared to those without concomitant CAD. Campesterol oxides were increased by 0.06±0.02ng/mg (17.1%) in the aortic valve cusps and oxidized sitosterol-to-cholesterol ratios were up-regulated by 0.35±0.2ng/mg (22.7%) in the plasma of patients with CAD. Of note, neither cholestanol nor the ratio of cholestanol-to-cholesterol was associated with CAD. Patients with concomitant CAD are characterized by increased deposition of plant sterols, but not cholestanol in aortic valve tissue. Moreover, patients with concomitant CAD were characterized by increased oxyphytosterol concentrations in plasma and aortic valve cusps.

Topics: Aged; Aortic Valve; Aortic Valve Stenosis; Blood Vessels; Cholestanol; Cholesterol; Coronary Artery Disease; Female; Humans; Hydroxymethylglutaryl-CoA Reductase Inhibitors; Male; Oxidation-Reduction; Phytosterols; Sitosterols

Phytosterols such as campesterol and sitosterol are susceptible to oxidation by reactive oxygen species. We hypothesize that the plant sterols (PS) campesterol and sitosterol and their 7-oxygenated metabolites (POPs) correlate within and between human plasma and aortic valve cusps tissues. Plasma and tissue concentrations of PS and POPs were analyzed by gas chromatography-mass spectrometry-selected ion monitoring. Prior to analysis valve cusps tissue was mechanically separated from the calcified parts. PS and POP levels per dry cusps tissue weight were significantly higher compared with the concentrations in the calcified part. Against our hypothesis we found that despite the fact that there is a high correlation between plant sterols in and between plasma and valves cusps tissue, as well as a high correlation between plant sterols and oxyphytosterols and oxyphytosterols themselves within the valve cusps tissue, there was hardly any correlation in the amount of oxyphytosterols in plasma and between plasma and valves. Because plasma samples are easily accessible for large scale population based studies, we have to understand in more detail what the analysis of POPs implies in terms of CVD risk for the future.

Topics: Adult; Aged; Aged, 80 and over; Aortic Valve; Aortic Valve Stenosis; Cholesterol; Female; Humans; Male; Middle Aged; Phytosterols; Sitosterols

Hypercholesterolemia is a risk factor for aortic stenosis (AS) and for coronary artery disease (CAD). Serum cholesterol concentrations are determined by intestinal cholesterol absorption and endogenous cholesterol synthesis. Vascular effects of differences in cholesterol metabolism in patients with AS are so far unknown. Therefore, the aim of this study was to investigate differences in cholesterol metabolism in relation to vascular diseases in this subset of patients.. In addition to identifying conventional coronary risk factors, we determined plant sterols (indicators of cholesterol absorption) and lathosterol (indicator of cholesterol synthesis) levels in 40 consecutive men and women with AS. Coronary angiograms before the aortic valve replacement determined the extent of CAD.. Patients with a positive history of cardiovascular disease exhibited an increased campesterol-to-lathosterol ratio in plasma (P<0.005) and in aortic valve cusps (P<0.05). The plasma campesterol-to-lathosterol ratio increased with CAD severity (zero, single, two, three-vessel disease; P<0.05). Coronary vessel score strongly correlated with the campesterol-to-lathosterol ratio in plasma (r = 0.52; P<0.001) and in aortic valve cusps (r = 0.33; P<0.03). Logistic regression analysis revealed that the ratio of campesterol-to-lathosterol was the sole predictor of CAD among coronary risk factors tested (P<0.01).. Enhanced absorption and reduced synthesis of cholesterol is related to a positive family history of cardiovascular diseases and the development of concomitant CAD in patients with AS.

Topics: Adult; Aged; Aged, 80 and over; Aortic Valve Stenosis; Biomarkers; Cholesterol; Coronary Angiography; Coronary Disease; Cross-Sectional Studies; Female; Heart Valve Prosthesis Implantation; Homeostasis; Humans; Intestinal Absorption; Logistic Models; Male; Middle Aged; Phytosterols; Risk Assessment; Risk Factors; Severity of Illness Index; Ultrasonography

Topics: Adult; Aortic Valve Stenosis; Coronary Disease; Humans; Male; Phytosterols