Genetic variants of the class A scavenger receptor gene are associated with coronary artery disease in Chinese

The class A scavenger receptor, encoded by the macrophage scavenger receptor 1 （MSR1） gene, is a pattern recognition receptor （PPR） primarily expressed in macrophages. It has been reported that genetic polymorphisms of MSR1 are significantly associated with the number of diseased vessels and coronary artery narrowing greater than 20% in Caucasians. However, whether it links genetically to coronary artery disease （CAD） in Chinese is not defined. Here, we performed an independent case-control study in a Chinese population consisting of 402 CAD cases and 400 controls by genotyping ten single nucleotide polymorphisms （SNPs） of MSR1. We found that rs416748 and rs13306541 were significantly associated with an increased risk of CAD with per allele odds ratio （OR） of 1.56 [95% confidence interval （CI） = 1.28-1.90; P 〈 0.001] and 1.70 （95% CI = 1.27-2.27; P 〈 0.001）, re- spectively. Our results indicate that genetic variants of MSR1 may serve as predictive markers for the risk of CAD / in combination with traditional risk factors of CAD in Chinese population.

Hyperglycemia promotes overexpression of SR-BII isoform of the scavenger receptor class B type I in type 2 diabetes mellitus: A study in Juana Koslay City, San Luis, Argentina

The scavenger receptor class B type I (SR-BI) is a high-density lipoprotein (HDL) receptor involved in reverse cholesterol transport. Some studies reported the association to be stronger in the presence of diabetes. The full length gene encoding SR-BI is comprised in 13 exons that are alternatively spliced to produce two major transcripts: the full length SR-BI and the splice variant SR-BII, in which exon 12 is skipped. Considering that type 2 diabetes status is characterized by changes in the concentration of plasma lipids, modifications in lipoprotein size and composition, which may be important modulators of the SR-BI expression;the aims of the study were to examine the influence of SR-BI polymorphism (rs838895) on lipid profile and SR-BI mRNA expression in a population of diabetic patients living in Juana Koslay City. Blood samples were drawn from controls (n = 40) and Type 2 diabetic patients (n = 66) and DNA and total RNA were obtained. SR-BI mRNA expression was measured by RT-PCR and SR-BI polymorphism was detected by Tetra Primer ARMSPCR. Compared to controls, diabetic patients had higher fasting serum glucose, glycated hemoglobin, triglycerides, total cholesterol, lowdensity lipoprotein cholesterol, and lower highdensity lipoprotein cholesterol. SR-BI mRNA expression was lower in T2DM when compared to controls, suggesting that the hyperglycemia presents in T2DM patients down-regulates SR-BI mRNA expression. Interestingly, we found that decreased SR-BI expression resulted in markedly increased plasma LDL concentrations in T2DM subjects, and the overexpression of SRBII isoform is responsible for the markedly increased plasma LDL-c concentrations. The polymorphism (rs838895) did not modify the mRNA level of SR-BI in leucocytes from control and diabetic patients. This study provides novel evidence suggesting that hyperglycemia may affect reverse cholesterol transport by controlling SRBI expression in diabetic patients. LDL cholesterol levels are associated with low SR-BI mRNA expression in T2DM.

Scavenger receptor BI: A multi-purpose player in cholesterol and steroid metabolism

Scavenger receptor class B type Ⅰ (SR-BI) is an important member of the scavenger receptor family of integral membrane glycoproteins. This review highlights studies in SR-BI knockout mice, which concern the role of SR-BI in cholesterol and steroid metabolism. SR-BI in hepatocytes is the sole molecule involved in selective uptake of cholesteryl esters from high-density lipoprotein (HDL). SR-BI plays a physiological role in binding and uptake of native apolipoprotein B (apoB)-containing lipoproteins by hepatocytes, which identif ies SR-BI as a multipurpose player in lipid uptake from the blood circulation into hepatocytes in mice. In adrenocortical cells, SR-BI mediates the selective uptake of HDL-cholesteryl esters, which is eff iciently coupled to the synthesis of glucocorticoids (i.e. corticosterone). SR-BI knockout mice suffer from adrenal glucocorticoid insuff iciency, which suggests that functional SR-BI protein is necessary for optimal adrenal steroidogenesis in mice. SR-BI in macrophages plays a dual role in cholesterol metabolism as it is able to take up cholesterol associated with HDL and apoBcontaining lipoproteins and can possibly facilitate cholesterol efflux to HDL. Absence of SR-BI is associated with thrombocytopenia and altered thrombosis susceptibility, which suggests a novel role for SR-BI in regulating platelet number and function in mice. Transgenic expression of cholesteryl ester transfer protein in humanized SR-BI knockout mice normalizes hepatic delivery of HDL-cholesteryl esters. However, other pathologies associated with SR-BI def iciency, i.e. increased atherosclerosis susceptibility, adrenal glucocorticoid insuffi ciency, and impaired platelet function are not normalized, which suggests an important role for SR-BI in cholesterol and steroid metabolism in man. In conclusion, generation of SR-BI knockout mice has signif icantly contributed to our knowledge of the physiological role of SR-BI. Studies using these mice have identif ied SR-BI as a multi-purpose player in cholesterol and steroid metabolism because it has distinct roles in reverse cholesterol transport, adrenal steroidogenesis, and platelet function.

Glucose-regulated protein 78 inhibits scavenger receptor A-mediated internalization of acetylated low density lipoprotein

Class A scavenger receptor(SR-A) plays an important role in foam cell formation.However, the mechanism underlying the internalization of the receptor-ligand complexes remains unclear.The aim of the present study was to investigate the molecular mechanism to regulate SR-A-mediated intracellular lipid accumulation in macrophages A pull-clown assay was performed and glucoseregulated protein 78(GRP78) was identified to bind with the cytoplasmic domain of SR-A(CSR-A).Immunoprecipitation and artificially expressed protein binding assay demonstrated the direct specific binding of GRP78 with SR-A in cells.Indirect immunofluorescence assay and western blot analysis showed their co-localization in membrane and cytoplasm.Over-expression of GRP78 specifically inhibited SR-A-mediated uptake of fluorescent acetylated low-density lipoprotein, a specific ligand for SR-A, without altering cellular SR-A expression and binding ability, and significantly inhibited cholesterol ester accumulation in cells, which can be partly attributed to the suppression of c-Jun-NH2-terminal kinase signaling pathway.These results suggest that GRP78 may act as an inhibitor of SR-A-mediated internalization of modified low-density lipoprotein into macrophages(C) 2009 Elsevier Inc.All rights reserved.

虹鳟Scarb1基因克隆、生物信息学及组织表达分析

清道夫受体B类成员1(scavenger receptor class B member 1,Scarb1)作为细胞表面的膜受体蛋白,在动物体色形成过程中发挥重要作用。为了解Scarb1基因在虹鳟(Oncorhynchus mykiss)体色形成中的作用,通过RACE技术克隆虹鳟Scarb1基因的cDNA全长,并运用生物信息学方法分析该基因及其序列结构特征,同时使用实时定量PCR(qRT-PCR)检测Scarb1基因在虹鳟、金鳟及其杂交F_(1)代不同发育阶段和不同组织中的表达情况。结果显示,Scarb1基因cDNA序列全长为2032 bp,开放阅读框1479 bp,编码492个氨基酸,预测分子质量为55.59 ku,且存在保守的CD36结构域和2个跨膜区。序列同源性分析显示,虹鳟与其他硬骨鱼类的氨基酸序列相似度为71.69%~98.58%;进化分析发现虹鳟与大马哈鱼亲缘关系最近,与哺乳动物和两栖动物亲缘关系最远。qRT-PCR检测结果表明,在虹鳟与金鳟胚胎期及出膜后各发育阶段中Scarb1基因均有不同程度表达,且表现为受精期至桑葚期的表达显著高于其他时期(P<0.05),对虹鳟与金鳟同一时期的差异分析发现该基因在胚胎期及7 dph(days post hatch)、1 M(month post hatch)、2 M和3 M时期中表达存在显著差异(P<0.01)。Scarb1基因在虹鳟与金鳟背部皮肤和背部肌肉等色素沉着性组织中表达量较高,其中在金鳟背部皮肤的表达量显著高于虹鳟(P<0.01)。此外,Scarb1基因在杂交F_(1)代不同发育时期中的表达规律与双亲一致;在不同组织中,该基因在杂交F_(1)代背部皮肤中的表达量介于双亲之间。研究结果表明,Scarb1基因与虹鳟体色形成有着密切关系,且可能在金鳟黄色体色形成过程中发挥重要作用。

金属硫蛋白对ApoE基因缺陷小鼠血脂、动脉粥样硬化及主动脉SR-AⅠ表达的影响

目的观察金属硫蛋白对ApoE基因缺陷小鼠血脂、动脉粥样硬化以及主动脉AⅠ型清道夫受体(SR-AⅠ)表达的影响。方法将20只6周龄雄性ApoE基因缺陷小鼠随机分为高脂模型组、金属硫蛋白组各10只,高脂饮食喂养13周;取10只野生雄性小鼠作为正常对照组,正常饮食喂养13周。13周后摘眼球取血测定血清总胆固醇(TC)、甘油三酯(TG)、低密度脂蛋白胆固醇(LDL-C)。处死小鼠后取主动脉,HE染色及SR-AⅠ免疫组织化学染色后观察主动脉血管壁形态学变化;用Western Blot和RT-PCR法检测主动脉壁组织中的SR-AⅠ蛋白和mR-NA表达。结果金属硫蛋白组TC、TG、LDL-C与高脂高脂模型组比较P均>0.05;金属硫蛋白组小鼠肝肾功能和肌酸磷酸激酶指标与高脂模型组相比P均>0.05。与正常对照组相比,高脂模型组主动脉粥样硬化病变程度明显加重,主动脉壁SR-AⅠ蛋白和mRNA表达均明显增加(P均<0.05);与高脂模型组相比,金属硫蛋白组主动脉粥样硬化程度减轻,SR-AⅠ蛋白和mRNA的表达均降低(P均<0.05)。结论金属硫蛋白对ApoE基因缺陷小鼠血脂无明显影响,但可降低其主动脉壁SR-AⅠ蛋白和mRNA,降低粥样硬化病变程度。

重组人高密度脂蛋白B族Ⅰ型清道夫受体基因腺相关病毒血清型2/1杂合载体在HepG2肝细胞的表达

【目的】构建含绿色荧光蛋白(EGFP)重组人高密度脂蛋白B族I型清道夫受体(SR-BI)基因腺相关病毒(rAAV)2/1杂合载体,观察其在HepG2肝细胞的表达。【方法】以pCMV.SPORT6-SR-BI质粒为模板PCR扩增目的基因cDNA,将其克隆至pSNAV2.0-IRES-EGFP-LacZa载体中,经酶切及测序鉴定后,脂质体介导转染BHK21细胞,经G418筛选得到含SR-BI基因的BHK/SR-BI-IRES-EGFP载体细胞株,用携带rep2-cap1基因的辅助病毒(rHsv/r2cl)感染该细胞株。通过细胞孵育、裂解和病毒纯化,得到杂合载体rAAV2/1-SR-BI-IRES-EGFP病毒。免疫荧光显微镜检测绿色荧光表达,计算转染效率,Western Blot检测转染后SR-BI蛋白的表达。【结果】酶切鉴定表明pSNAV2.0-SR-BI-IRES-EGFP重组成功,基因测序显示装入pSNAV2.0-IRES-EGFP-LacZa质粒中的SR-BI基因正确;成功构建了rAAV2/1-SR-BI-IRES-EGFP病毒载体。转染HepG2肝细胞后免疫荧光显微镜检测最佳MOI值为1×105时,以此值转染HepG2肝细胞荧光高效表达;Western Blot检测未转染组及rAAV2/1-IRES-EGFP组HepG2肝细胞均有SR-BI蛋白表达,rAAV2/1-SR-BI-IRES-EGFP组SR-BI蛋白表达水平较rAAV2/1-IRES-EGFP组及未转染组显著增加。【结论】成功构建了rAAV2/1-SR-BI-IRES-EGFP杂合载体系统,转染后SR-BI蛋白在HepG2肝细胞高效表达,为SR-BI生理学作用机制及临床应用的深入研究奠定基础。

化痰活血法对ApoE(-/-)小鼠主动脉胆固醇逆向转运相关蛋白表达的影响

目的:观察化痰活血法对ApoE基因敲除[ApoE(-/-)]小鼠主动脉胆固醇逆转运(RCT)主要相关蛋白小凹蛋白-1(caveolin-1)、清道夫受体BI(SR-BI)的影响。方法:4～6周龄ApoE(-/-)小鼠高脂饲料喂养16周后,分为化痰组、活血组、化痰活血组、普伐他汀组和模型对照组;另5周龄正常C57BL/6J家系小鼠10只,高脂饲料喂养16周,设为正常对照组。化痰组灌服小陷胸汤加枳壳水提液2.5 mL/100 g体质量,活血组灌服芎芍胶囊0.05 g/100 g体质量,化痰活血组灌服小陷胸汤加枳壳水提液2.5 mL/100 g体质量+芎芍胶囊0.05 g/100 g体质量,普伐他汀组灌服普伐他汀0.3 mg/100 g体质量;模型对照组及正常对照组均灌服生理盐水1 mL/100 g体质量,连续给药16周。取主动脉常规石蜡切片光镜下观察,测量动脉面积及斑块面积;免疫组化观察caveolin-1、SR-BI表达。结果:在高脂刺激下,ApoE(-/-)小鼠主动脉caveolin-1及SR-BI表达均有所增加(P<0.01);普伐他汀组、化痰组、活血组及化痰活血组均可显著提高ApoE(-/-)小鼠主动脉caveolin-1及SR-BI的表达,组间比较显示化痰活血组caveolin-1及SR-BI表达显著高于单纯化痰组和活血组(P<0.05,P<0.01)。活血、化痰以及活血化痰三种治法均可显著减缓ApoE(-/-)小鼠主动脉粥样硬化病变程度,效果与普伐他汀相当。结论:活血、化痰或活血化痰法均可提高caveolin-1和SR-BI的表达,促进RCT过程,减少ApoE(-/-)小鼠主动脉粥样硬化斑块形成,其中活血化痰组在促进胆固醇逆向转运方面优于单纯活血组或化痰组。

高密度脂蛋白和低密度脂蛋白对HepG2细胞SR-BI表达的影响

目的观察高密度脂蛋白(HDL)、低密度脂蛋白(LDL)及氧化型低密度脂蛋白(ox-LDL)对HepG2细胞B类I型清道夫受体(SR-BI)表达及胆固醇含量的影响。方法用HDL、LDL及ox-LDL处理HepG2细胞,采用RT-PCR、Western印迹检测细胞SR-BI的表达;采用油红O染色及高效液相色谱法(HPLC)观察细胞内脂质的含量。结果HDL、LDL及ox-LDL处理HepG2细胞后,与对照组比较,各脂蛋白处理组细胞SR-BI mRNA及蛋白表达上调,油红O染色发现HDL、LDL及ox-LDL处理组细胞内脂滴含量明显增加;HPLC检测提示,与对照组细胞内总胆固醇含量(43.18±7.80 mg/g蛋白)比较,ox-LDL处理组(113.01±15.90 mg/g蛋白)、LDL处理组(171.13±20.01 mg/g蛋白)及HDL处理组(220.39±28.00 mg/g蛋白)细胞内总胆固醇含量增加,其中HDL处理组变化最明显。结论HDL、LDL及ox-LDL三种脂蛋白可上调HepG2细胞SR-BI的表达,增加细胞内胆固醇的蓄积。

rAAV2/1-SR-BI-IRES-EGFP转染HepG2肝细胞对^(125)I-HDL摄取的调节

【目的】探讨B族I型清道夫受体(SR-BI)过表达对高密度脂蛋白(HDL)摄取的调节,为SR-B1在胆固醇逆转运(RCT)及动脉粥样硬化(AS)中的研究提供新思路。【方法】用含SR-BI基因的重组腺相关病毒r AAV2/1-SR-BI-IRESEGFP杂合载体转染人Hep G2肝细胞株,Realtime RT-PCR和Western Blot分别检测转染后SR-BI m RNA和蛋白的表达。125I-HDL同位素标记观察转染对HDL结合的影响。激光共聚焦显微镜观察转染后SR-BI细胞分布及转移情况。【结果】与未转染组及对照病毒r AAV2/1-IRES-EGFP转染组相比,重组病毒r AAV2/1-SR-BI-IRES-EGFP转染组SR-BI m RNA水平和蛋白表达显著增加,差别均有统计学意义(P均<0.01),且可以引起125I标记的HDL与Hep G2肝细胞的结合增加1.28倍和1.40倍,差别均有统计学意义(P均<0.01)。在无血清状态下,我们用激光共聚焦显微镜观察发现SR-BI同时位于细胞膜和细胞浆,HDL可以促进SR-BI从细胞浆到细胞表面的转移。【结论】SR-BI过表达可以增加Hep G2肝细胞HDL的摄取且摄取可能主要发生在细胞膜上,SR-BI参与了RCT的过程。

壳寡糖上调SRBI核心岩藻糖基化修饰水平减弱小鼠动脉粥样硬化斑块形成

目的 从蛋白糖基化修饰角度探讨壳寡糖(COS)减弱动脉粥样硬化(AS)斑块形成的机制。方法 将40只ApoE-/-小鼠随机分为对照组和COS组。对照组饲给予高脂饲料12周,COS组给予高脂饲料+COS(每天灌胃,500 mg/kg)12周。全自动生化分析仪检测两组小鼠的血脂水平并对主动脉斑块切片进行HE和油红O染色。凝集素芯片、液相色谱-串联质谱、酶联免疫吸附试验检测血清中糖蛋白变化。胆固醇酯流出实验和游离胆固醇酯测定实验评价清道夫受体B类成员1(SRBI)糖基化修饰位点改变对巨噬细胞胆固醇流出量的影响。结果 COS显著降低小鼠TC和LDL-C水平(P<0.05),但对TG、HDL-C、ApoA1和ApoB100无影响。与对照组相比,COS组主动脉内膜厚度和斑块大小明显变薄、变小(P<0.05)。两组小鼠血清中变化最明显的小扁豆凝集素(LCA)结合蛋白分子量为80~90 ku,清道夫受体B类成员1为其中之一。COS促进了细胞内胆固醇的流出,抑制了游离胆固醇酯的积累(P<0.05)。SRBI敲低或N108糖基化位点突变可抑制COS引起的胆固醇流出,增加细胞内游离胆固醇的积累(P<0.05)。结论 COS通过增加SRBI糖基化水平促进脂质外排,从而减少动脉粥样硬化的形成。

B类1型清道夫受体介导的高密度脂蛋白在年龄相关性黄斑变性中的研究进展

随着年龄的增长,机体胆固醇代谢失调和叶黄素水平异常易导致视网膜异常脂质沉积和玻璃膜疣,进而增加年龄相关性黄斑变性(age-related macular degeneration,AMD)的患病风险。视网膜细胞上的B类1型清道夫受体(scavenger receptor class B type 1,SR-B1)在脂质代谢和视网膜保护中至关重要。组织细胞表面的SR-B1通过识别并结合细胞外的高密度脂蛋白(high-density lipoprotein,HDL),将游离胆固醇逆向转运至肝脏,对维持全身包括视网膜的脂质代谢平衡与避免脂质沉积至关重要。此外,HDL同样作为转运体参与叶黄素的视网膜转运过程。叶黄素,以其独特的蓝光过滤和抗氧化功能,减少蓝光对视网膜的潜在损伤并清除有害的氧自由基,发挥保护视网膜的作用。本综述将详细探讨SR-B1在视网膜中的作用,尤其是在协助胆固醇清除和叶黄素抗氧化防御方面的重要性,并评述SR-B1以及携带的有益成分如HDL和叶黄素对缓解AMD发病的机制与最新研究进展。

Androsterone在血管内皮细胞Eahy926中对SR-BI表达的影响

目的研究法尼酯X受体(farnesoid X receptor,FXR)对B类清道夫受体Ⅰ(scavenger receptor class BtypeI,SR-BI)表达的调控。方法FXR配体androsterone不同浓度处理Eahy926细胞,RT-PCR检测FXR特异靶基因小异源二聚体伴侣受体(small heterodimer partner,SHP)表达量的变化。RT-PCR和Real-timePCR分析经androsterone处理后Eahy926细胞中SR-BImRNA表达的变化。用Western blot检测SR-BI蛋白表达的变化。结果经androsterone刺激,Eahy926细胞中SHP的表达明显升高,表明FXR被活化。在经androsterone刺激的血管内皮细胞中,SR-BI在转录水平和翻译水平,表达均显著上升。结论FXR可在血管内皮细胞系Eahy926中上调SR-BI的表达水平。

姜黄素对APPswe/PSEN1dE9双转基因小鼠海马神经元SR-BⅠ和ABCA1表达的影响

目的:观察姜黄素对β-淀粉样前体蛋白swe基因/早老蛋白1dE9基因(APPswe/PSEN1dE9)双转基因小鼠海马神经元B类Ⅰ型清道夫受体(scavenger receptor class B typeⅠ,SR-BⅠ)和三磷酸腺苷结合盒A1(ATP-binding cassette transporter,ABCA1)表达的影响,探讨姜黄素在阿尔茨海默病(Alzheimer’s disease,AD)防治中的机制。方法:将10只6月龄的APPswe/PSEN1dE9双转基因小鼠随机分为对照组和姜黄素饲喂组,每组5只。姜黄素饲喂组每天饲喂500 ppm姜黄素,6个月后采用免疫组化法检测小鼠海马神经元SR-BⅠ和ABCA1表达的变化。结果:与对照组相比,姜黄素饲喂组小鼠海马神经元ABCA1表达明显增加(t=-10.805,P=0.000),但2组小鼠海马神经元中均未见SR-BⅠ表达。结论:姜黄素能提高APPswe/PSEN1dE9双转基因小鼠海马神经元ABCA1的表达,而SR-BⅠ在神经元中未见表达。

Biliary cholesterol secretion: More than a simple ABC

Biliary cholesterol secretion is a process important for 2 major disease complexes, atherosclerotic cardiovascular disease and cholesterol gallstone disease. With respect to cardiovascular disease, biliary cholesterol secretion is regarded as the f inal step for the elimination of cholesterol originating from cholesterol-laden macrophage foam cells in the vessel wall in a pathway named reverse cholesterol transport. On the other hand, cholesterol hypersecretion into the bile is considered the main pathophysiological determinant of cholesterol gallstone formation. This review summarizes current knowledge on the origins of cholesterol secreted into the bile as well as the relevant processes and transporters involved. Next to the established ATP-binding cassette (ABC) transporters mediating the biliary secretion of bile acids (ABCB11), phospholipids (ABCB4) and cholesterol (ABCG5/G8), special attention is given to emerging proteins that modulate or mediate biliary cholesterol secretion. In this regard, the potential impact of the phosphatidylserine flippase ATPase class Ⅰ type 8B member 1, the Niemann Pick C1-like protein 1 that mediatescholesterol absorption and the high density lipoprotein cholesterol uptake receptor, scavenger receptor class B type Ⅰ, is discussed.

Upregulation of caveolin-1 and SR-B1 in mice with non-alcoholic fatty liver disease

BACKGROUND:Non-alcoholic fatty liver disease(NAFLD)is one of the most frequent causes of liver diseases,with markedly increased prevalence.However,its mechanisms are not clear.The present study was undertaken to illustrate the role of caveolin-1(cav1)and the scavenger receptor class B type 1(SR-B1)in NAFLD.METHODS:Adult male C57BL/6 mice were fed with a normal diet or high fat and cholesterol(HFC)diet for 14 weeks.The mice were sacrificed to collect plasma and harvest the liver;their plasma lipid concentration was measured.Hepatic cav1and SR-B1 mRNA and protein expression were determined by real-time quantitative polymerase chain reaction(qPCR)and Western blotting,respectively.In order to study cav1 and SR-B1distribution and change in hepatocytes,immunohistochemical analysis was performed.RESULTS:HFC diet increased plasma lipids,induced NAFLD and increased the liver/body weight ratio.Compared to the control mice(n=6),the mRNA and protein levels of cav1 and SR-B1 in liver tissue of the NAFLD mice(n=12)increased significantly(cav1 mRNA:1.536±0.226 vs 0.980±0.272,P【0.05;protein:0.643±0.240 vs 0.100±0.130,P【0.01;SR-B1 mRNA:1.377±0.125 vs 0.956±0.151,P【0.01;protein:2.156±0.507vs 0.211±0.211,P【0.01).Furthermore,both cav1 and SR-B1immunoreactivity increased and their distribution was also changed,mainly in the plasma membrane of hepatocytes,cytoplasm and membrane of lipid droplets and around.CONCLUSION:NAFLD is associated with increased concentration of plasma lipids and upregulation of hepatic cav1 and SR-B1 gene and protein expressions,which indicate that cav1 and SR-B1 might play crucial roles in the pathogenesis of NAFLD.

Role of sphingosine 1-phosphate in anti-atherogenic actions of high-density lipoprotein

The reverse cholesterol transport mediated by highdensity lipoprotein(HDL)is an important mechanism for maintaining body cholesterol,and hence,the crucial anti-atherogenic action of the lipoprotein.Recent studies,however,have shown that HDL exerts a variety of anti-inflammatory and anti-atherogenic actions independently of cholesterol metabolism.The present review provides an overview of the roles of sphingosine 1-phosphate(S1P)/S1P receptor and apolipoprotein A-I/ scavenger receptor class B typeⅠsystems in the antiatherogenic HDL actions.In addition,the physiological significance of the existence of S1P in the HDL particles is discussed.

GRP78 inhibits macrophage adhesion via SR-A

Class A scavenger receptor （SR-A） plays an important role in macrophage adhesion. However, the underlying mechanism remains unclear. We previously found that 78 kDa glucose-regulated protein （GRP78） inhibited SR- A-mediated ligand internalization into macrophage by binding to SR-A. The aim of the study was to investigate whether GRP78 could regulate SR-A-mediated cell adhesion. We demonstrated that GRP78 bound directly to SR-A by fluorescence resonance energy transfer （FRET） assay. Overexpression of GRP78 inhibited macrophage adhesion via SR-A. These results suggest that GRP78 may act as an inhibitor of macrophage adhesion via SR-A.

HDL signaling and protection against coronary artery atherosclerosis in mice

Atherosclerosis is a leading underlying factor in cardiovascular disease and stroke,important causes of morbidity and mortality across the globe.Abundant epidemiological studies demonstrate that high levels of high density lipoprotein（HDL） are associated with reduced risk of atherosclerosis and preclinical,animal model studies demonstrate that this association is causative.Understanding the molecular mechanisms underlying the protective effects of HDL will allow more strategic approaches to development of HDL based therapeutics.Recent evidence suggests that an important aspect of the ability of HDL to protect against atherosclerosis is its ability to trigger signaling responses in a variety of target cells including endothelial cells and macrophages in the vessel wall.These signaling responses require the HDL receptor,scavenger receptor class B type 1（SR-B1）,an adaptor protein（PDZK1） that binds to the cytosolic C terminus of SR-B1,Akt1 activation and（at least in endothelial cells） activation of endothelial NO synthase（eNOS）.Mouse models of atherosclerosis,exemplified by apolipoprotein E or low density lipoprotein receptor gene inactivated mice（apoE or LDLR KO） develop atherosclerosis in their aortas but appear generally resistant to coronary artery atherosclerosis.On the other hand,inactivation of each of the components of HDL signaling（above）in either apoE or LDLR KO mice renders them susceptible to extensive coronary artery atherosclerosis suggesting that HDL signaling may play an important role in protection against coronary artery disease.

Susceptibility gene for stroke or cerebral infarction in the Han population in Hunan Province of China

The scavenger receptor class B type I gene can protect against atherosclerosis; a mononucleotide polymorphism is associated with differences in blood lipid metabolism, postprandial serum lipid levels, insulin resistance, coronary artery disease and familial hyperlipidemia. In this study, the scavenger receptor class B type I gene exon 1 G4A gene polymorphism in atherosclerotic cerebral infarction patients, cerebral hemorrhage patients and normal controls was detected using the polymerase chain reaction-restriction fragment length polymorphism method. The results showed that the GA ＋ AA genotype frequency of scavenger receptor class B type I gene G4A in atherosclerotic cerebral infarction patients was similar to that in cerebral hemorrhage patients and normal controls; however, the A allele frequency was significantly lower than that in normal controls. The serum level of high-density lipoprotein cholesterol in patients with the scavenger receptor class B type I gene G4A GA ＋ AA genotype was significantly higher, while the serum level of low-density lipoprotein cholesterol was significantly lower than that in patients with the GG genotype, in both the atherosclerotic cerebral infarction and cerebral hemorrhage groups. The serum level of high-density lipoprotein cholesterol in patients with the scavenger receptor class B type I gene G4A GA ＋ AA genotype was significantly higher, while the serum levels of low-density lipoprotein cholesterol and total cholesterol were significantly lower than those in normal controls with the GG genotype. Our experimental results suggest that the G4A polymorphism of the scavenger receptor class B type I gene is a possible predisposing risk factor for atherosclerotic cerebral infarction, and that it has no association with cerebral hemorrhage in the Hart population in Hunan province of China. The A allele is possibly associated with the metabolism of high-density and low-density lipoprotein cholesterol.