Insights into apolipoprotein C metabolism from transgenic and gene-targeted mice.

M C Jong, L M Havekes
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Abstract

Studies in humans on the in vivo metabolism of apolipoprotein (apo) Cs have been hampered by the highly complex nature of lipoprotein metabolism, which can be influenced by multiple genetic and environmental factors. In order to gain new insights into the function of the individual apoCs in lipoprotein metabolism, several laboratories have created mouse models lacking or overexpressing the respective APOC genes through the technologies of gene targeting and transgenesis. Until now, the only well-established in vivo metabolic function of apoC-I has been its inhibitory action on the uptake of very low-density lipoprotein (VLDL) via hepatic receptors, particularly the low-density lipoprotein (LDL) receptor-related protein. Consequently, the presence of apoC-I on the lipoprotein particle may prolong its residence time in the circulation and subsequently facilitate its conversion to LDL. ApoC-II, on the other hand, is a major activator of lipoprotein lipase, which is required for an efficient processing of triglyceride-rich lipoproteins in the circulation. However, an excess of apoC-II on the lipoprotein particle has been suggested to inhibit the lipoprotein-lipase-mediated hydrolysis of triglycerides. From studies with APOC3 transgenic and ApoC3-knockout mice, it appears that apoC-III inhibits the lipolysis of triglyceride-rich lipoproteins by hampering the interaction of these lipoproteins with the heparan sulfate proteoglycan-lipoprotein lipase complex. Subsequently, the poorly lipolyzed apoC-III-containing lipoprotein particles may accumulate in plasma because of their lower binding affinity towards hepatic receptors due to a change in lipid composition, particle size or the presence of apoC-III on the particle itself. From these data it can thus be concluded that all C apolipoproteins specifically modulate the metabolism of triglyceride-rich lipoproteins, which may contribute to the development of hyperlipidemia and other lipoprotein abnormalities in humans.

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转基因和基因靶向小鼠载脂蛋白C代谢的研究进展。
人体载脂蛋白(apo) Cs体内代谢的研究一直受到脂蛋白代谢的高度复杂性的阻碍,这可能受到多种遗传和环境因素的影响。为了对APOC基因在脂蛋白代谢中的作用有新的认识,一些实验室通过基因靶向和转基因技术建立了缺乏或过表达APOC基因的小鼠模型。到目前为止,apoc - 1唯一确定的体内代谢功能是其通过肝脏受体,特别是低密度脂蛋白受体相关蛋白摄取极低密度脂蛋白(VLDL)的抑制作用。因此,脂蛋白颗粒上apoC-I的存在可能延长其在循环中的停留时间,并随后促进其转化为LDL。另一方面,ApoC-II是脂蛋白脂肪酶的主要激活剂,它是循环中有效处理富含甘油三酯的脂蛋白所必需的。然而,脂蛋白颗粒上过量的apoC-II被认为可以抑制脂蛋白-脂肪酶介导的甘油三酯水解。从对APOC3转基因和APOC3敲除小鼠的研究来看,apoC-III似乎通过阻碍这些脂蛋白与硫酸肝素蛋白聚糖-脂蛋白脂肪酶复合物的相互作用来抑制富含甘油三酯的脂蛋白的脂溶。随后,由于脂质组成、颗粒大小的改变或颗粒本身存在apoC-III,低脂化的含有apoC-III的脂蛋白颗粒对肝脏受体的结合亲和力较低,因此可能在血浆中积累。从这些数据可以得出结论,所有C载脂蛋白特异性地调节富含甘油三酯的脂蛋白的代谢,这可能有助于人类高脂血症和其他脂蛋白异常的发展。
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