Department of Biomedical Sciences, University of Modena and Reggio Emilia, Modena, Italy.
J Lipid Res. 2011 Nov;52(11):1885-926. doi: 10.1194/jlr.R017855. Epub 2011 Aug 23.
This review integrates historical biochemical and modern genetic findings that underpin our understanding of the low-density lipoprotein (LDL) dyslipidemias that bear on human disease. These range from life-threatening conditions of infancy through severe coronary heart disease of young adulthood, to indolent disorders of middle- and old-age. We particularly focus on the biological aspects of those gene mutations and variants that impact on sterol absorption and hepatobiliary excretion via specific membrane transporter systems (NPC1L1, ABCG5/8); the incorporation of dietary sterols (MTP) and of de novo synthesized lipids (HMGCR, TRIB1) into apoB-containing lipoproteins (APOB) and their release into the circulation (ANGPTL3, SARA2, SORT1); and receptor-mediated uptake of LDL and of intestinal and hepatic-derived lipoprotein remnants (LDLR, APOB, APOE, LDLRAP1, PCSK9, IDOL). The insights gained from integrating the wealth of genetic data with biological processes have important implications for the classification of clinical and presymptomatic diagnoses of traditional LDL dyslipidemias, sitosterolemia, and newly emerging phenotypes, as well as their management through both nutritional and pharmaceutical means.
这篇综述整合了历史生化和现代遗传学发现,这些发现为我们理解与人类疾病相关的低密度脂蛋白(LDL)脂血症提供了依据。这些疾病范围从婴儿期的危及生命的情况到青年时期的严重冠心病,再到中年和老年的慢性疾病。我们特别关注那些影响固醇吸收和肝胆排泄的基因突变和变体的生物学方面,这些突变和变体通过特定的膜转运体系统(NPC1L1、ABCG5/8);饮食固醇(MTP)和从头合成脂质(HMGCR、TRIB1)掺入载脂蛋白 B (APOB)的脂蛋白中及其释放到循环中(ANGPTL3、SARA2、SORT1);以及 LDL 和肠内和肝内源性脂蛋白残基(LDLR、APOB、APOE、LDLRAP1、PCSK9、IDOL)的受体介导摄取。将丰富的遗传数据与生物学过程相结合所获得的见解,对传统 LDL 脂血症、甾醇血症和新出现的表型的临床和症状前诊断分类以及通过营养和药物手段进行管理具有重要意义。