酒精摄入对肝脏视黄酰基酯浓度和酰基组成的影响

Biochimica et biophysica acta Pub Date : 2013-07-01
Robin D Clugston, Hongfeng Jiang, Man Xia Lee, Paul D Berk, Ira J Goldberg, Li-Shin Huang, William S Blaner
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引用次数: 0

摘要

类维生素A(维生素A及其代谢物)是调节许多细胞过程的必需微量营养素。人体超过70%的类维生素a储备以视黄酯(RE)的形式储存在肝脏中。慢性饮酒会导致肝类视黄醇储存的消耗,其程度与酒精性肝病的进展阶段相关。本研究的目的是分析酒精消耗导致肝脏RE储存耗竭的机制。在开始饮酒后两周内,观察到酒精喂养小鼠RE脂肪酰基组成的变化。具体来说,酒精喂养与肝脏视黄醇棕榈酸酯水平显著下降有关;然而,总RE水平是通过通常较少的RE物种,特别是油酸视黄醇水平的代偿性增加来维持的。我们的数据表明,酒精喂养最初刺激了RE水解和合成的无效循环,并且RE酰基组成的变化与肝磷脂酰胆碱酰基组成的变化有关。酒精引起的RE酰基组成的变化是肝脏特有的,在肺或白色脂肪组织中未见。肝脏RE脂肪酰基组成的这种变化是饮酒的敏感指标,可能是与酒精性肝病发展相关事件的早期生物标志物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Altered hepatic retinyl ester concentration and acyl composition in response to alcohol consumption.

Retinoids (vitamin A and its metabolites) are essential micronutrients that regulate many cellular processes. Greater than 70% of the body's retinoid reserves are stored in the liver as retinyl ester (RE). Chronic alcohol consumption induces depletion of hepatic retinoid stores, and the extent of this has been correlated with advancing stages of alcoholic liver disease. The goal of this study was to analyze the mechanisms responsible for depletion of hepatic RE stores by alcohol consumption A change in the fatty-acyl composition of RE in alcohol-fed mice was observed within two weeks after the start of alcohol consumption. Specifically, alcohol-feeding was associated with a significant decline in hepatic retinyl palmitate levels; however, total RE levels were maintained by a compensatory increase in levels of usually minor RE species, particularly retinyl oleate. Our data suggests that alcohol feeding initially stimulates a futile cycle of RE hydrolysis and synthesis, and that the change in RE acyl composition is associated with a change in the acyl composition of hepatic phosphatidylcholine. The alcohol-induced change in RE acyl composition was specific to the liver, and was not seen in lung or white adipose tissue. This shift in hepatic RE fatty acyl composition is a sensitive indicator of alcohol consumption and may be an early biomarker for events associated with the development of alcoholic liver disease.

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