降脂治疗下胆固醇合成的胆固醇平衡衍生合成数据和替代非胆固醇血浆标志物的解释。

Cholesterol Pub Date : 2017-01-01 Epub Date: 2017-02-22 DOI:10.1155/2017/5046294
Frans Stellaard, Dieter Lütjohann
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引用次数: 9

摘要

胆固醇平衡程序允许计算胆固醇合成的假设,通过粪便排泄和胆汁酸合成的内源性胆固醇的损失是由重新合成补偿。依折替米贝治疗肝胆固醇降低,可通过肝脏重新合成和肝脏提取血浆胆固醇来补偿。经总胆固醇浓度校正的血浆胆甾醇浓度(R_Lath)作为新生胆固醇合成的标志,在依泽替米治疗期间升高,但在依泽替米和辛伐他汀治疗期间不变。在两种治疗期间,胆固醇平衡衍生的合成数据增加。我们假设如下。(1)胆固醇平衡数据必须应用于肝胆胆固醇库。(2)计算出的胆固醇合成值为肝脏新生合成与血浆-肝脏净胆固醇交换率之和。(3)胆道胆固醇吸收率降低是依折替米贝治疗下肝脏胆固醇代谢调节的主要触发因素。支持性的实验和文献数据描述了依zetimibe、他汀和综合治疗对杂食动物和素食者胆固醇通量的变化,将血浆R_Lath与肝功能联系起来,并将肝脏新生合成定义为调节合成的靶点。不能排除依折麦布依赖的直接肝药物作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Interpretation of Cholesterol Balance Derived Synthesis Data and Surrogate Noncholesterol Plasma Markers for Cholesterol Synthesis under Lipid Lowering Therapies.

The Interpretation of Cholesterol Balance Derived Synthesis Data and Surrogate Noncholesterol Plasma Markers for Cholesterol Synthesis under Lipid Lowering Therapies.

The Interpretation of Cholesterol Balance Derived Synthesis Data and Surrogate Noncholesterol Plasma Markers for Cholesterol Synthesis under Lipid Lowering Therapies.

The Interpretation of Cholesterol Balance Derived Synthesis Data and Surrogate Noncholesterol Plasma Markers for Cholesterol Synthesis under Lipid Lowering Therapies.

The cholesterol balance procedure allows the calculation of cholesterol synthesis based on the assumption that loss of endogenous cholesterol via fecal excretion and bile acid synthesis is compensated by de novo synthesis. Under ezetimibe therapy hepatic cholesterol is diminished which can be compensated by hepatic de novo synthesis and hepatic extraction of plasma cholesterol. The plasma lathosterol concentration corrected for total cholesterol concentration (R_Lath) as a marker of de novo cholesterol synthesis is increased during ezetimibe treatment but unchanged under treatment with ezetimibe and simvastatin. Cholesterol balance derived synthesis data increase during both therapies. We hypothesize the following. (1) The cholesterol balance data must be applied to the hepatobiliary cholesterol pool. (2) The calculated cholesterol synthesis value is the sum of hepatic de novo synthesis and the net plasma-liver cholesterol exchange rate. (3) The reduced rate of biliary cholesterol absorption is the major trigger for the regulation of hepatic cholesterol metabolism under ezetimibe treatment. Supportive experimental and literature data are presented that describe changes of cholesterol fluxes under ezetimibe, statin, and combined treatments in omnivores and vegans, link plasma R_Lath to liver function, and define hepatic de novo synthesis as target for regulation of synthesis. An ezetimibe dependent direct hepatic drug effect cannot be excluded.

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