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家族性低β脂蛋白血症中截短载脂蛋白B蛋白血浆水平降低的双重机制。对Apob基因存在无义突变的新型小鼠模型的分析。

Dual mechanisms for the low plasma levels of truncated apolipoprotein B proteins in familial hypobetalipoproteinemia. Analysis of a new mouse model with a nonsense mutation in the Apob gene.

作者信息

Kim E, Cham C M, Véniant M M, Ambroziak P, Young S G

机构信息

Gladstone Institute of Cardiovascular Disease, University of California, San Francisco, California 94141-9100, USA.

出版信息

J Clin Invest. 1998 Mar 15;101(6):1468-77.

PMID:9502790
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC508703/
Abstract

Familial hypobetalipoproteinemia (FHbeta), a syndrome characterized by low plasma cholesterol levels, is caused by mutations in the apo-B gene that interfere with the synthesis of apo-B100. FHbeta mutations frequently lead to the synthesis of a truncated form of apo-B, which typically is present in plasma at < 5% of the levels of apo-B100. Although many FHbeta mutations have been characterized, the basic mechanisms causing the low plasma levels of truncated apo-B variants have not been defined. We used gene targeting to create a mutant allele that exclusively yields a truncated apo-B, apo-B83. In mice heterozygous for the Apob83 allele, plasma levels and the size and density distribution of apo-B83-containing lipoproteins were strikingly similar to those observed in humans with FHbeta and an apo-B83 mutation. Analysis of mice carrying the Apob83 mutation revealed two mechanisms for the low plasma levels of apo-B83. First, Apob83 mRNA levels and apo-B83 secretion were reduced 76 and 72%, respectively. Second, apo-B83 was removed rapidly from the plasma, compared with apo-B100. This mouse model provides a new level of understanding of FHbeta and adds new insights into apo-B metabolism.

摘要

家族性低β脂蛋白血症(FHbeta)是一种以血浆胆固醇水平低为特征的综合征,由载脂蛋白B(apo-B)基因中的突变引起,这些突变会干扰apo-B100的合成。FHbeta突变经常导致截短形式的apo-B的合成,这种截短形式的apo-B通常在血浆中的含量不到apo-B100水平的5%。尽管已经鉴定出许多FHbeta突变,但导致截短的apo-B变体血浆水平低的基本机制尚未明确。我们利用基因靶向技术创建了一个仅产生截短的apo-B即apo-B83的突变等位基因。在携带Apob83等位基因的杂合小鼠中,血浆水平以及含apo-B83的脂蛋白的大小和密度分布与患有FHbeta和apo-B83突变的人类中观察到的情况惊人地相似。对携带Apob83突变的小鼠的分析揭示了apo-B83血浆水平低的两种机制。首先,Apob83 mRNA水平和apo-B83分泌分别降低了76%和72%。其次,与apo-B100相比,apo-B83从血浆中被快速清除。这个小鼠模型为理解FHbeta提供了新的层面,并为apo-B代谢增添了新的见解。

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