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Curr Opin Lipidol. 2018 Apr;29(2):144-150. doi: 10.1097/MOL.0000000000000484.
2
Stepwise processing analyses of the single-turnover PCSK9 protease reveal its substrate sequence specificity and link clinical genotype to lipid phenotype.逐步处理分析单次循环 PCSK9 蛋白酶,揭示其底物序列特异性,并将临床基因型与脂质表型联系起来。
J Biol Chem. 2018 Feb 9;293(6):1875-1886. doi: 10.1074/jbc.RA117.000754. Epub 2017 Dec 19.
3
Heparan sulfate proteoglycans present PCSK9 to the LDL receptor.硫酸乙酰肝素蛋白聚糖将前蛋白转化酶枯草溶菌素9呈递给低密度脂蛋白受体。
Nat Commun. 2017 Sep 11;8(1):503. doi: 10.1038/s41467-017-00568-7.
4
Cost-effectiveness of Evolocumab Therapy for Reducing Cardiovascular Events in Patients With Atherosclerotic Cardiovascular Disease.依洛尤单抗治疗动脉粥样硬化性心血管疾病患者减少心血管事件的成本效果分析。
JAMA Cardiol. 2017 Oct 1;2(10):1069-1078. doi: 10.1001/jamacardio.2017.2762.
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Updated Cost-effectiveness Analysis of PCSK9 Inhibitors Based on the Results of the FOURIER Trial.基于FOURIER试验结果的PCSK9抑制剂最新成本效益分析
JAMA. 2017 Aug 22;318(8):748-750. doi: 10.1001/jama.2017.9924.
6
Threshold Effects of Circulating Angiopoietin-Like 3 Levels on Plasma Lipoproteins.循环血管生成素样3水平对血浆脂蛋白的阈值效应
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Nine paths to PCSK9 inhibition.PCSK9抑制的九条途径。
Nat Rev Drug Discov. 2017 Apr 28;16(5):299-301. doi: 10.1038/nrd.2017.83.
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Evolocumab and Clinical Outcomes in Patients with Cardiovascular Disease.依洛尤单抗与心血管疾病患者的临床结局。
N Engl J Med. 2017 May 4;376(18):1713-1722. doi: 10.1056/NEJMoa1615664. Epub 2017 Mar 17.
9
The Proprotein Convertases in Hypercholesterolemia and Cardiovascular Diseases: Emphasis on Proprotein Convertase Subtilisin/Kexin 9.载脂蛋白转化酶在高脂血症和心血管疾病中的作用:重点介绍前蛋白转化酶枯草溶菌素/柯萨奇蛋白酶 9。
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10
Trafficking Dynamics of PCSK9-Induced LDLR Degradation: Focus on Human PCSK9 Mutations and C-Terminal Domain.前蛋白转化酶枯草溶菌素9(PCSK9)诱导低密度脂蛋白受体(LDLR)降解的运输动力学:聚焦于人类PCSK9突变和C末端结构域
PLoS One. 2016 Jun 9;11(6):e0157230. doi: 10.1371/journal.pone.0157230. eCollection 2016.

细胞相关肝素样分子调节 LDL 调节 PCSK9 摄取的能力。

Cell-associated heparin-like molecules modulate the ability of LDL to regulate PCSK9 uptake.

机构信息

Department of Cellular and Molecular Pharmacology and Howard Hughes Medical Institute, University of California San Francisco, San Francisco, CA 94143.

Division of Cardiology, Zuckerberg San Francisco General, Department of Medicine, University of California San Francisco, San Francisco, CA 94110

出版信息

J Lipid Res. 2019 Jan;60(1):71-84. doi: 10.1194/jlr.M087189. Epub 2018 Nov 21.

DOI:10.1194/jlr.M087189
PMID:30463987
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6314249/
Abstract

Proprotein convertase subtilisin/kexin type 9 (PCSK9) targets the LDL receptor (LDLR) for degradation, increasing plasma LDL and, consequently, cardiovascular risk. Uptake of secreted PCSK9 is required for its effect on the LDLR, and LDL itself inhibits this uptake, though how it does so remains unclear. In this study, we investigated the relationship between LDL, the PCSK9:LDLR interaction, and PCSK9 uptake. We show that LDL inhibits binding of PCSK9 to the LDLR in vitro more impressively than it inhibits PCSK9 uptake in cells. Furthermore, cell-surface heparin-like molecules (HLMs) can partly explain this difference, consistent with heparan sulfate proteoglycans (HSPGs) acting as coreceptors for PCSK9. We also show that HLMs can interact with either PCSK9 or LDL to modulate the inhibitory activity of LDL on PCSK9 uptake, with such inhibition rescued by competition with the entire PCSK9 prodomain, but not its truncated variants. Additionally, we show that the gain-of-function PCSK9 variant, S127R, located in the prodomain near the HSPG binding site, exhibits increased affinity for HLMs, potentially explaining its phenotype. Overall, our findings suggest a model where LDL acts as a negative regulator of PCSK9 function by decreasing its uptake via direct interactions with either the LDLR or HLMs.

摘要

前蛋白转化酶枯草溶菌素 9(PCSK9)靶向 LDL 受体(LDLR)进行降解,增加血浆 LDL,进而增加心血管风险。分泌的 PCSK9 的摄取对于其对 LDLR 的作用是必需的,而 LDL 本身抑制这种摄取,尽管其具体机制尚不清楚。在这项研究中,我们研究了 LDL、PCSK9:LDLR 相互作用和 PCSK9 摄取之间的关系。我们表明,LDL 在体外抑制 PCSK9 与 LDLR 的结合比其在细胞中抑制 PCSK9 摄取更为显著。此外,细胞表面肝素样分子(HLMs)可以部分解释这种差异,这与硫酸乙酰肝素蛋白聚糖(HSPGs)作为 PCSK9 的核心受体起作用一致。我们还表明,HLMs 可以与 PCSK9 或 LDL 相互作用,调节 LDL 对 PCSK9 摄取的抑制活性,这种抑制可以通过与整个 PCSK9 前结构域竞争来挽救,但不能通过其截断变体来挽救。此外,我们表明,位于靠近 HSPG 结合位点的前结构域中的功能获得性 PCSK9 变体 S127R 与 HLMs 具有更高的亲和力,这可能解释了其表型。总体而言,我们的研究结果表明,LDL 通过与 LDLR 或 HLMs 直接相互作用降低其摄取,从而作为 PCSK9 功能的负调节剂起作用。