人分泌磷脂酶A2在人ApoA-I转基因小鼠炎症反应中介导血浆高密度脂蛋白胆固醇和ApoA-I水平的降低

U. Tietge, C. Maugeais, S. Lund-Katz, D. Grass, F. Debeer, D. Rader
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引用次数: 133

摘要

目的:血浆中高密度脂蛋白(HDL)胆固醇和载脂蛋白(apo)A-I水平在炎症状态下降低。分泌型磷脂酶A2 (sPLA2)是一种急性期蛋白,可能在这种现象的病理生理中起关键作用。方法与结果:为了研究sPLA2对体内类人HDL颗粒的影响,我们构建了过表达人apoA-I和人sPLA2的转基因小鼠(apoA-I/sPLA2小鼠)。与apoA-I小鼠相比,apoA-I/sPLA2小鼠血浆磷脂、高密度脂蛋白胆固醇和apoA-I水平均显著降低(P <0.01)。apoA-I/sPLA2小鼠的HDL中磷脂和胆固醇酯含量显著减少(P <0.001),而蛋白质和甘油三酯含量显著增加(P <0.001)。通过凝胶过滤和非变性凝胶电泳评估,sPLA2在apoA-I小鼠中的过表达导致HDL颗粒大小向更小颗粒的急剧转变。此外,几乎所有apoA-I/sPLA2小鼠的血浆sPLA2都与HDL分数有关。通过腹腔注射脂多糖(LPS)诱导apoA-I/sPLA2双转基因和单转基因小鼠急性期反应。LPS注射后,apoA-I/sPLA2小鼠血浆sPLA2明显升高。LPS给药12小时后,apoA-I转基因对照小鼠的血浆总胆固醇、高密度脂蛋白胆固醇、apoA-I和磷脂没有变化,但apoA-I/sPLA2小鼠的血浆总胆固醇、高密度脂蛋白胆固醇、apoA-I和磷脂含量显著下降(分别为- 57%、- 62%和- 54%、- 61%);P <0.001)。两组小鼠在LPS作用下血浆中血清淀粉样蛋白A (SAA)水平均升高。为了验证SAA可能是sPLA2体内激活剂的假设,我们通过肝定向基因转移在apoA-I/sPLA2小鼠中特异性过表达SAA。尽管血浆SAA水平很高,但血浆脂质和脂蛋白谱与对照组小鼠没有什么不同。结论:这些在类人HDL小鼠模型中的结果表明,sPLA2的表达显著影响HDL的颗粒大小和组成,并表明sPLA2的诱导是小鼠在炎症刺激下血浆HDL胆固醇降低所必需的,并且这种作用不依赖于SAA。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Human Secretory Phospholipase A2 Mediates Decreased Plasma Levels of HDL Cholesterol and ApoA-I in Response to Inflammation in Human ApoA-I Transgenic Mice
Objective—Plasma levels of high density lipoprotein (HDL) cholesterol and apolipoprotein (apo)A-I are decreased in inflammatory states. Secretory phospholipase A2 (sPLA2), an acute-phase protein, may play a key role in the pathophysiology of this phenomenon. Methods and Results—To investigate the effects of sPLA2 on human-like HDL particles in vivo, we generated transgenic mice overexpressing human apoA-I and human sPLA2 (apoA-I/sPLA2 mice). Compared with apoA-I mice, apoA-I/sPLA2 mice had significantly lower plasma levels of phospholipids, HDL cholesterol, and apoA-I (each P <0.01). HDL from apoA-I/sPLA2 mice was significantly depleted in phospholipids and cholesteryl esters (each P <0.001) but was enriched in protein and triglycerides (each P <0.001). As assessed by gel filtration and nondenaturing gel electrophoresis, sPLA2 overexpression in apoA-I mice resulted in a dramatic shift of the HDL particle size toward smaller particles. Furthermore, virtually all plasma sPLA2 in apoA-I/sPLA2 mice was found in association with the HDL fraction. The acute-phase response was induced in apoA-I/sPLA2 double-transgenic and apoA-I single-transgenic mice by intraperitoneal lipopolysaccharide (LPS) injection. Plasma sPLA2 was significantly increased after LPS injection in apoA-I/sPLA2 mice. Twelve hours after LPS administration, plasma total cholesterol, HDL cholesterol, apoA-I, and phospholipids were unchanged in apoA-I transgenic control mice but had decreased significantly in the apoA-I/sPLA2 mice (−57%, −62%, and −54%, −61%, respectively; each P <0.001). Both groups of mice had increased plasma levels of serum amyloid A (SAA) in response to LPS. To test the hypothesis that SAA may be an in vivo activator of sPLA2, we specifically overexpressed SAA in apoA-I/sPLA2 mice by means of liver-directed gene transfer. Despite high plasma levels of SAA, plasma lipid and lipoprotein profiles were not different than those in control mice. Conclusions—These results in a mouse model of human-like HDL indicate that sPLA2 expression significantly influences HDL particle size and composition and demonstrate that an induction of sPLA2 is required for the decrease in plasma HDL cholesterol in response to inflammatory stimuli in mice and that this effect is independent of SAA.
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