Neil S. Shachter scite author profile

To evaluate the effects of grape polyphenols on plasma lipids, inflammatory cytokines, and oxidative stress, 24 pre- and 20 postmenopausal women were randomly assigned to consume 36 g of a lyophilized grape powder (LGP) or a placebo for 4 wk. The LGP consisted of 92% carbohydrate and was rich in flavans, anthocyanins, quercetin, myricetin, kaempferol, and resveratrol. After a 3-wk washout period, subjects were assigned to the alternate treatment for an additional 4 wk. The placebo consisted of an equal ratio of fructose and dextrose and was similar in appearance and energy content (554 kJ) to LGP. Plasma triglyceride concentrations were reduced by 15 and 6% in pre- and postmenopausal women, respectively (P < 0.01) after LGP supplementation. In addition, plasma LDL cholesterol and apolipoproteins B and E were lower due to LGP treatment (P < 0.05). Further, cholesterol ester transfer protein activity was decreased by approximately 15% with intake of LGP (P < 0.05). In contrast to these beneficial effects on plasma lipids, LDL oxidation was not modified by LGP treatment. However, whole-body oxidative stress as measured by urinary F(2)-isoprostanes was significantly reduced after LGP supplementation. LGP also decreased the levels of plasma tumor necrosis factor-alpha, which plays a major role in the inflammation process. Through alterations in lipoprotein metabolism, oxidative stress, and inflammatory markers, LGP intake beneficially affected key risk factors for coronary heart disease in both pre- and postmenopausal women.

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Apolipoproteins C-I and C-III as important modulators of lipoprotein metabolism

Shachter¹

2001

Current Opinion in Lipidology

272

183

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Apolipoprotein (apo)C-I and apoC-III are constituents of HDL and of triglyceride-rich lipoproteins that slow the clearance of triglyceride-rich lipoproteins by a variety of mechanisms. ApoC-I is an inhibitor of lipoprotein binding to the LDL receptor, LDL receptor-related protein, and VLDL receptor. It also is the major plasma inhibitor of cholesteryl ester transfer protein, and appears to interfere directly with fatty acid uptake. ApoC-III also interferes with lipoprotein particle clearance, but its principal role is as an inhibitor of lipolysis, both through the biochemical inhibition of lipoprotein lipase and by interfering with lipoprotein binding to the cell-surface glycosaminoglycan matrix where lipolytic enzymes and lipoprotein receptors reside. Variation in the expression of apoC-III has been credibly documented to have an important role in hypertriglyceridemia. Variation in the expression of apoC-I may also be important for hypertriglyceridemia under certain circumstances.

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Safety and efficacy of Omacor in severe hypertriglyceridemia

Harris¹,

Ginsberg²,

Arunakul³

et al. 1997

Journal of Cardiovascular Risk

272

137

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Chylomicronemia due to apolipoprotein CIII overexpression in apolipoprotein E-null mice. Apolipoprotein CIII-induced hypertriglyceridemia is not mediated by effects on apolipoprotein E.

Ebara¹,

Ramakrishnan²,

Steiner³

et al. 1997

J. Clin. Invest.

175

102

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The mechanism of apolipoprotein (apo) CIII-induced hypertriglyceridemia remains uncertain. We crossed apoCIII transgenic and apoE gene knockout (apoE 0 ) mice, and observed severe hypertriglyceridemia with plasma triglyceride levels of 4,521 Ϯ 6,394 mg/dl vs. 423 Ϯ 106 mg/dl in apoE 0 mice, P Ͻ 0.00001 for log(triglycerides [TG]). Cholesterols were 1,181 Ϯ 487 mg/dl vs. 658 Ϯ 151 mg/dl, P Ͻ 0.0001. Lipoprotein fractionation showed a marked increase in triglyceride-enriched chylomicrons ϩ VLDL. This increase was limited to the lowest density (chylomicrons and S f 100-400) subfractions. Intermediate density lipoproteins (IDL) ϩ LDL increased moderately, and HDL decreased. There was no significant increase in triglyceride production in apoCIII transgenic/apoE 0 mice. The clearance of VLDL triglycerides, however, was significantly decreased. Lipoprotein lipase in postheparin plasma was elevated, but activation studies suggested LPL inhibition by both apoCIII transgenic and apoCIII transgenic/apoE 0 plasma. ApoCIII overexpression also produced a marked decrease in VLDL glycosaminoglycan binding which was independent of apoE. The predominant mechanism of apoCIII-induced hypertriglyceridemia appears to be decreased lipolysis at the cell surface. The altered lipoprotein profile that was produced also allowed us to address the question of the direct atherogenicity of chylomicrons and large VLDL. Quantitative arteriosclerosis studies showed identical results in both apoCIII transgenic/apoE 0 and apoE 0 mice, supporting the view that very large triglyceride-enriched particles are not directly atherogenic. ( J. Clin. Invest. 1997. 99:2672-2681.)

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Combined hyperlipidemia in transgenic mice overexpressing human apolipoprotein Cl.

Shachter¹,

Ebara²,

Ramakrishnan³

et al. 1996

J. Clin. Invest.

107

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Neil S. Shachter

Grape Polyphenols Exert a Cardioprotective Effect in Pre- and Postmenopausal Women by Lowering Plasma Lipids and Reducing Oxidative Stress

Apolipoproteins C-I and C-III as important modulators of lipoprotein metabolism

Safety and efficacy of Omacor in severe hypertriglyceridemia

Chylomicronemia due to apolipoprotein CIII overexpression in apolipoprotein E-null mice. Apolipoprotein CIII-induced hypertriglyceridemia is not mediated by effects on apolipoprotein E.

Combined hyperlipidemia in transgenic mice overexpressing human apolipoprotein Cl.

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