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1.
VLDL—受体重复序列的诱变缺失与配体结合力的关系   总被引:7,自引:0,他引:7  
极低密度脂蛋白受体 (VLDL R)的配体结合域上存在 8个富含半胱氨酸的重复序列 (ligand bindingre peats,LBR) ,被认为是与配体结合的部位。该受体与含 7个类似重复序列的低密度脂蛋白受体 (LDL R)配体结合特性明显不同。为了明确VLDL R中 8个LBR在与配体结合中的作用并探讨VLDL R与LDL R结合特性差异原因 ,采用基因缺失诱变方法 ,构建了各种不同重复序列缺失的VLDL R重组体。将其分别导入无LDL R功能性表达的ldl A7细胞。转染细胞与荧光标记的VLDL、β VLDL及LDL的结合实验结果表明 ,LBR1和LBR2对结合富含apoE的脂蛋白 (VLDL ,β VLDL)最为重要 ;LBR3和LBR6对结合VLDL也有重要作用 ,但对结合 β VLDL无明显影响。结果同时表明 ,LBR7缺失的VLDL R表现出部分LDL R的结合特性 ,提示该重复序列可能是VLDL R与LDL R配体结合特性差异的部分原因  相似文献   

2.
全长及缺失VLDL受体基因转染的CHO细胞与β-VLDL的结合效应   总被引:6,自引:0,他引:6  
为探讨 VLDL受体结合域中 8个重复序列在结合 VLDL中所起的作用 ,利用构建的全长VLDL受体 c DNA和缺失 5个重复序列的该受体 c DNA重组表达载体分别导入 CHO细胞中 .RT- PCR可检测到外源性 VLDL受体基因的表达 .受体与配体结合研究表明 ,转染全长 VLDLR重组体的 CHO细胞结合β- VLDL的能力明显高于转染 VLDLR缺失重组体的 CHO细胞 ,表明人VLDL受体在 CHO细胞中能有效表达 ,而缺失 5个重复序列的 VLDL受体基本失去了结合β-VLDL的能力  相似文献   

3.
在兔主动脉平滑肌细胞 ( SMC)培养基中分别加入正常低密度脂蛋白 ( N- LDL)、氧化低密度脂蛋白 ( ox- LDL)、正常极低密度脂蛋白 ( N- VLDL)、氧化极低密度脂蛋白 ( ox- VLDL)和 β-极低密度脂蛋白 (β- VLDL )培养 2 4 h后 ,用定量 RT- PCR和配体结合实验检测平滑肌细胞 LRP的m RNA和蛋白质水平的表达 .结果表明 :五种脂蛋白均能在转录和翻译水平诱导兔主动脉平滑肌细胞的 LRP表达 ,尤以富含胆固醇的 N- LDL ,ox- LDL和β- VLDL的刺激作用更明显 .用胆固醇单独或与脂蛋白共同温育 SMC后 ,发现胆固醇本身可促进 SMC的 LRP蛋白水平的表达 ,脂蛋白与胆固醇的共同刺激作用更为显著 .结果提示 :上述五种脂蛋白对 SMC上 LRP的表达有上调作用 ,其机制可能主要是通过其中的胆固醇来实现的 .  相似文献   

4.
VLDL-受体的配体结合结构域结构分析   总被引:1,自引:1,他引:0  
极低密度脂蛋白受体(VLDL-R)的配体结合域具有8个富含半胱氨酸的配体结合重复序列(ligand-binding repeats,LBR),被认为是与配体结合的部位。该受体与含7个类似重复序列的低密度脂蛋白受体(LDL-R)的配体结合特性明显不同。为了明确VLDL-R中8个LBR在配体结合中的作用并探讨结合位点的结构,本研究采用计算机辅助蛋白质结构预测方法,在二级结构分析的基础上,通过同源建模方法预测受体N-端328个氨基酸的配体结合域空间结构,结果显示该区域呈现弧形口袋样结构,其中前3个LBR结构紧凑,呈棒状,负电荷相对集中,推测这一特征结构是配体结合的重要结构基础,结构分析同时表明在LBR5与LBR6之间连接区的弹性结构可以赋予结合位点一定的伸缩性,利于其与不同配体的结合。本研究预测结果首次提出了VLDL-R配体结构域结构及结合位点的结构特征,并与已有的实验结果一致。  相似文献   

5.
目的:克隆并表达大鼠细胞核受体LXRβ配体结合区(LBD)序列,并进行配体依赖性受体与共激活因子结合区短肽相互作用的酶标法分析,建立简易经济可靠的体外高通量筛选LXR调节剂方法.方法:从含大鼠LXRβ cDNA序列的pSG5/rLXRβ上扩增LBD区序列,测序核实序列后,将此序列克隆入表达载体,构建原核表达载体pET28a(+)-rLXRβ-LBD;将重组质粒转化大肠杆菌BL21(DE3),IPTG诱导表达重组蛋白,通过SDS-PAGE、Western blotting检测及Ni2+亲和层析柱分离纯化;建立ELISA方法检测配体依赖性受体-共激活短肽相互作用.结果:重组蛋白rLXRβ-LBD在大肠杆菌中高效表达(占菌体总蛋白30%),SDS-PAGE显示在36kDa处有免疫特异性蛋白,纯化后全长蛋白占90%以上.ELISA结合测试显示在激动剂猪脱氧胆酸二甲酰胺存在时,rLXRβ-LBD能与共激活短肽结合,亲和力与双荧光酶报告基因测活结果吻合.结论:成功克隆并表达rLXRβ-LBD序列,建立起ELISA筛选方法,为LXR-LBD配体功能活性的研究和配体的高通量筛选提供新方法.  相似文献   

6.
神经系统中富亮氨酸重复序列跨膜蛋白的功能研究进展   总被引:1,自引:0,他引:1  
富亮氨酸重复序列(leucine-rich repeat, LRR)是一种常见的蛋白质结构域.含有富亮氨酸重复序列的蛋白质简称LRR蛋白.LRR蛋白在真核生物和原核生物的细胞和组织中广泛分布,其定位的特异性以及与之相互作用蛋白质的复杂性,决定了LRR蛋白功能的多样性.许多LRR蛋白相对特异性表达于神经系统,绝大多数在神经系统中高表达的LRR蛋白属于跨膜蛋白,它们主要作为细胞黏附分子或配体结合蛋白参与突触的形成、神经突起的生长发育、神经递质的转移和释放等神经系统正常生理活动.LRR蛋白的异常表达将会导致神经、精神系统疾病的发生.  相似文献   

7.
孕烷X受体(pregnant X receptor,PXR)和组成型雄甾烷受体(constitutive androstane receptor,CAR)是核受体(nuclear receptors,NRs)超家族的重要成员,主要分布在肝脏和小肠等组织,经配体激活后可调控药物代谢酶及转运体的表达和活性,调节毒性物质的清除、解毒及代谢,保护机体免受外源性化学物质和内源性毒性脂质损伤。因此,PXR和CAR也被称为异源物代谢核受体(xenobiotic nuclear receptors)。近年发现,PXR和CAR也参与糖、脂代谢和炎症等信号通路的调控,同时,在血管内皮细胞也有表达,从而可能与动脉粥样硬化、高血压等血管疾病的发生密切相关。本文简要综述PXR和CAR的结构、组织分布、配体、激活及其在血管疾病中的作用。  相似文献   

8.
王澜  曾帆  黄荣凤  林树  张志辉  李旻典 《遗传》2023,(2):144-155
脂肪组织的神经支配与调节在能量代谢稳态的维持中发挥重要作用。神经肽Y(neuropeptide Y, NPY)及其脂肪细胞受体信号通路促进高脂饮食诱导的肥胖,其中NPY受体1(NPY receptor Y1,NPY1R)与受体2(NPY2R)是主要的NPY外周受体。NPY受体4(NPY4R)也在脂肪组织表达,然而尚不清楚其是否参与肥胖的发生发展机制。本研究建立了NPY及其受体的免疫荧光成像技术和脂肪细胞回复性表达Npy4r小鼠。根据对不同部位脂肪组织的荧光显微术观察,发现NPY在肩胛间棕色脂肪和皮下脂肪的围绕血管区域以点状形式表达,NPY系统的各受体在脂肪组织的空间分布上具有明显的组织特异性:NPY1R在棕色脂肪、主动脉周围脂肪和性腺脂肪较为富集,NPY2R在棕色脂肪和主动脉周围脂肪较为富集,NPY4R在棕色脂肪与性腺脂肪较为富集。继而通过比较脂肪细胞回复性表达Npy4r小鼠与全身Npy4r基因静默小鼠在高脂喂食下的体重与糖代谢,发现脂肪细胞Npy4r促进高脂饮食诱导的肥胖(P <0.0001)。本研究明确了NPY及其受体NPY1R、 NPY2R和NPY4R在不同部位脂肪组织的蛋...  相似文献   

9.
雌激素受体β亚型   总被引:3,自引:0,他引:3  
1996年发现雌激素受体存在亚型,即ERβ。ERβ与ERα结构相似。广泛分布于多种组织内,其表达受体激素的影响但不依赖于ERα,并与组织分化、发育过程相关。ERβ可能在生殖系统和神经系统中发挥重要作用,还可能参与肿瘤发生与进展过程ERβ与ERα在体内分布、与配体亲和力、促转录活性上存在差异,对ERβ及其特异性配体的进一步研究具有重要意义。  相似文献   

10.
野猪MC4R基因的克隆及变异初步研究   总被引:8,自引:0,他引:8  
黑素皮质素受体4是在人类肥胖研究中发现的重要调节因子,参与调节动物的体重、采食量和能量稳态,缺失MC4R基因的突变纯合体小鼠出现遗传性肥胖。为了进一步揭示其群体遗传变异,寻找新的遗传标记,本研究对野猪(Sus scrofa ussuricus)MC4R基因进行了克隆(GenBank accession NoDQ388767)和序列分析,并对所发现的错义突变进行了基于限制性内切酶HindⅢ的PCR-RFLP分析。序列分析表明野猪与民猪MC4R基因的编码区序列完全相同,与大白猪相比存在4个SNPs;对14头野猪的酶切多态性分析表明该突变位点是多态位点,并且3种基因型的分布符合Hardy-Weinberg定律。结果表明,野猪具有独特的遗传信息。  相似文献   

11.
The VLDL (very low density lipoprotein) receptor is a member of the LDL (low density lipoprotein) receptor family. The VLDL receptor binds apolipoprotein (apo) E but not apo B, and is expressed in fatty acid active tissues (heart, muscle, adipose) and macrophages abundantly. Lipoprotein lipase (LPL) modulates the binding of triglyceride (TG)-rich lipoprotein particles to the VLDL receptor. By the unique ligand specificity, VLDL receptor practically appeared to function as IDL (intermediate density lipoprotein) and chylomicron remnant receptor in peripheral tissues in concert with LPL. In contrast to LDL receptor, the VLDL receptor expression is not down regulated by lipoproteins. Recently several possible functions of the VLDL receptor have been reported in lipoprotein metabolism, atherosclerosis, obesity/insulin resistance, cardiac fatty acid metabolism and neuronal migration. The gene therapy of VLDL receptor into the LDL receptor knockout mice liver showed a benefit effect for lipoprotein metabolism and atherosclerosis. Further researches about the VLDL receptor function will be needed in the future.  相似文献   

12.
The cholesteryl ester transfer protein (CETP), a key player in cholesterol metabolism, has been shown to promote the transfer of triglycerides from very low density lipoprotein (VLDL) and low density lipoprotein (LDL) to high density lipoprotein (HDL) in exchange for cholesterol ester. Here we demonstrate that farnesoid X receptor alpha (FXRalpha; NR1H4) down-regulates CETP expression in HepG2 cells. A FXRalpha ligand, chenodeoxycholic acid (CDCA), suppressed basal mRNA levels of the CETP gene in HepG2 cells in a dose-dependent manner. Using gel shift and chromatin immunoprecipitation (ChIP) assays, we found that FXRalpha could bind to the liver X receptor alpha (LXRalpha; NR1H3) binding site (LXRE; DR4RE) located within the CETP 5' promoter region. FXRalpha suppressed LXRalpha-induced DR4RE-luciferase activity and this effect was mediated by a binding competition between FXRalpha and LXRalpha for DR4RE. Furthermore, the addition of CDCA together with a LXRalpha ligand, GW3965, to HepG2 cells was shown to substantially decrease mRNA levels of hepatic CETP gene, which is typically induced by GW3965. Together, our data demonstrate that FXRalpha down-regulates CETP gene expression via binding to the DR4RE sequence within the CETP 5' promoter and this FXRalpha binding is essential for FXRalpha inhibition of LXRalpha-induced CETP expression.  相似文献   

13.
Because of very low density lipoprotein's (VLDL) potential atherogenicity and the demonstration that VLDL can bind to other cells, we examined the interaction of human VLDL with cultured porcine aortic endothelium. The lipoprotein-cell interaction had many properties similar to those seen with the binding of a ligand to a cell surface receptor. It was time and temperature dependent, saturable, and reversible. Scatchard analysis of competition data suggested that there may be more than one class of binding site. The affinity of the low affinity site was similar to that for low density lipoprotein (LDL). Also, the capacity of endothelial cells to bind VLDL was similar to that for LDL, when related to apo B (i.e., particle) concentration. Not only was unlabelled VLDL able to compete for VLDL binding sites, but so was LDL and high density lipoprotein (HDL). The maximal competition either by LDL or by HDL was less than that by VLDL. The maximal competition by HDL was more than by LDL. The VLDL binding was dependent on Ca2+. It was not changed by the content of lipoprotein in the medium in which cells were grown prior to the binding studies. These observations suggest that VLDL binding to endothelial cells is similar in some respects, but not in all, to the binding of LDL. Comparison of the data with endothelial cells to previous data with adipocytes also indicated differences between the interaction of these two cell types with VLDL. It is possible that this binding process may be involved in the formation of atherogenic remnants of triglyceride-rich lipoproteins on the endothelial surface of large blood vessels.  相似文献   

14.
The receptor for yolk lipoprotein deposition in the chicken oocyte.   总被引:5,自引:0,他引:5  
The final rapid growth phase of the chicken oocyte is characterized by massive uptake of hepatically synthesized yolk precursor proteins from the plasma. The two major yolk-forming components, very low density lipoprotein (VLDL) and vitellogenin (VTG), have been shown to interact with a 95-kDa protein present in detergent extracts of ovarian membranes; this protein is absent in hens of a mutant nonlaying chicken strain (Nimpf, J., Radosavljevic, M., and Schneider, W. J. (1989) J. Biol. Chem. 264, 1393-1398). Here, we have purified the 95-kDa protein by ligand and immunoaffinity chromatography and demonstrated its role in receptor-mediated endocytosis by ultrastructural immunolocalization, structural, and functional studies. The receptor was visualized exclusively in the oocyte proper and was absent from somatic cells, in agreement with the previously reported expression of two different lipoprotein receptors in somatic cells and oocytes, respectively, of laying hens (Hayashi, K., Nimpf, J., and Schneider, W. J. (1989) J. Biol. Chem. 264, 3131-3139). Amino acid sequences of tryptic fragments of the oocyte receptor were obtained, and its kinship to somatic low density lipoprotein receptors was confirmed through the demonstration of sequence conservation in three characteristic domains. In particular, the chicken receptor's internalization sequence, Phe-Asp-Asn-Pro-Val-Tyr, is identical with that in low density lipoprotein receptors from mammals as well as Xenopus laevis. The ligand-binding properties, specificity, and kinetic parameters of the oocyte receptor were characterized in filtration assays employing pure ligands and receptor. In conjunction with ligand-blotting experiments following limited protease digestion of the receptor, the binding assay data suggest that VTG recognizes a substructure of the VLDL-binding site. These studies establish that a cell-specific receptor mediates the endocytosis of VTG and VLDL into growing chicken oocytes and thus possibly plays a key role in control of oocyte growth.  相似文献   

15.
Mutations in apolipoprotein B (APOB) may reduce binding of low density lipoprotein (LDL) to the LDL receptor and cause hypercholesterolemia. We showed that heterozygotes for a new mutation in APOB have hypobetalipoproteinemia, despite a reduced binding of LDL to the LDL receptor. APOB R3480P heterozygotes were identified among 9,255 individuals from the general population and had reduced levels of apoB-containing lipoproteins. Most surprisingly, R3480P LDL bound with lower affinity to the LDL receptor than non-carrier LDL in vitro, and these results were confirmed by turnover studies of LDL in vivo. In very low density lipoprotein (VLDL) turnover studies, the amount of VLDL converted to LDL in R3480P heterozygotes was substantially reduced, suggesting that this was the explanation for the hypobetalipoproteinemia observed in these individuals. Our findings emphasized the importance of combining in vitro studies with both human in vivo and population-based studies, as in vitro studies often have focused on very limited aspects of complex mechanisms taken out of their natural context.  相似文献   

16.
17.
The receptor-mediated uptake of major yolk protein precursor, vitellogenin (Vg) is crucial for oocyte growth in egg laying animals. In the present study plasma membrane receptor for Vg was isolated from the oocyte of the red mud crab, Scylla serrata. Vitellogenin receptor (VgR) protein was visualized by ligand blotting using labeled crab Vg ((125)I-Vg) as well as labeled low density lipoprotein ((125)I -LDL) and very low density lipoprotein ((125)I-VLDL) isolated from rat. The endocytosis of Vg was visualized in the crab oocyte by ultrastructural immunolocalization of Vg. The Vg receptor was purified by gel filtration high performance liquid chromatography (HPLC) and its molecular weight was estimated to be 230 kDa. In direct binding studies, the receptor exhibited high affinity (dissociation constant K(d) 0.8x10(minus sign6) M) for crab Vg. Vitellogenin receptor was observed to have an increased affinity to crab Vg in the presence of Ca(2+) and the binding was inhibited by suramin, suggesting similarities between crab VgR and low density lipoprotein receptor (LDLR) superfamily of receptor protein. Furthermore, the crab VgR showed significant binding ability to mammalian atherogenic lipoproteins such as LDL and VLDL. This suggests that there is a tight conservation of receptor binding sites between invertebrate (crab) Vg and vertebrate (rat) LDL and VLDL.  相似文献   

18.
19.
It has been proposed that clearance of cholesterol-enriched very low density lipoprotein (VLDL) particles occurs through a multistep process beginning with their initial binding to cell-surface heparan sulfate proteoglycans (HSPG), followed by their uptake into cells by a receptor-mediated process that utilizes members of the low density lipoprotein receptor (LDLR) family, including the low density lipoprotein receptor-related protein (LRP). We have further explored the relationship between HSPG binding of VLDL and its subsequent internalization by focusing on the LRP pathway using a cell line deficient in LDLR. In this study, we show that LRP and HSPG are part of a co-immunoprecipitable complex at the cell surface demonstrating a novel association for these two cell surface receptors. Cell surface binding assays show that this complex can be disrupted by an LRP-specific ligand binding antagonist, which in turn leads to increased VLDL binding and degradation. The increase in VLDL binding results from an increase in the availability of HSPG sites as treatment with heparinase or competitors of glycosaminoglycan chain addition eliminated the augmented binding. From these results we propose a model whereby LRP regulates the availability of VLDL binding sites at the cell surface by complexing with HSPG. Once HSPG dissociates from LRP, it is then able to bind and internalize VLDL independent of LRP endocytic activity. We conclude that HSPG and LRP together participate in VLDL clearance by means of a synergistic relationship.  相似文献   

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