化学修饰单克隆抗体模拟谷胱甘肽过氧化物酶

化学修饰具有底物谷胱甘肽（ＧＳＨ）结合部位的单克隆抗体（４Ａ４）使其结合部位上的丝氨酸（Ｓｅｒ）转变成谷胱甘肽过氧化物酶（ＧＰＸ）的催化基因硒代半胱氨酸（ＳｅＣｙｓ）因而产生高活力的含硒抗体酶（Ｓｅ－ａｂｚｙｍｅ）突变的４Ａ４（ｍ４Ａ４）的ＧＰＸ活力达到了天然酶活力的１９％并对ｍ４Ａ４的酶学性质和动力学性质进行了研究;硒代谷胱甘肽（ＧＳｅＨ）连到４Ａ４结合部位,其ＧＰＸ活力由３．８６Ｕ／μｍｏｌ提     

化学修饰单克隆抗体模拟谷胱甘肽过氧化物酶

化学修饰具有底物谷胱甘肽（ＧＳＨ）结合部位的单克隆抗体（４Ａ４）,使其结合部位上的丝氨酸（Ｓｅｒ）转变成谷胱甘肽过氧化物酶（ＧＰＸ）的催化基团硒代半胱氨酸（Ｓｅ－Ｃｙｓ）,因而产生高活力的含硒抗体酶（Ｓｅ－ａｂｚｙｍｅ）．突变的４Ａ４（ｍ４Ａ４）的ＧＰＸ活力达到了天然酶活力的１９％,并对ｍ４Ａ４的酶学性质和动力学性质进行了研究;硒代谷胱甘肽（ＧＳｅＨ）连到４Ａ４结合部位,其ＧＰＸ活力由３．８６Ｕ／μｍｏｌ提高到５９８．９Ｕ／μｍｏｌ用黄嘌呤氧化酶／次黄嘌呤为中心的心肌线粒体自由基损伤模型证明Ｓｅ－ａｂｚｙｍｅ（ｍ４Ａ４）可减轻活性氧对线粒体的损伤。     

兼具SOD和GPX活力的双功能酶的制备及性质研究

用苯甲基磺酰氟（ＰＭＳＦ）和Ｈ２Ｓｅ相继处理铜锌超氧化物歧化酶（Ｃｕ,Ｚｎ－ＳＯＤ）,将酶分子中的丝氨酸（Ｓｅｒ）转化为硒代半胱氨酸（ＳｅＣｙｓ）,从而引入了谷胱甘肽过氧化物酶（ＧＰＸ）的催化基因,使其在ＳＯＤ酶活性大部分保留的情况下,具有ＧＰＸ活性,其ＧＰＸ活力是ＰＺ５１活力的３０倍,研究了双功能酶的最佳制备条件,包括ＰＭＳＦ的剂量、反应最适温度及Ｈ２Ｓｅ处理时间等,并用电子能谱、ＤＴＮＢ等方法     

昆虫谷胱甘肽S-转移酶分离纯化的新方法

谷胱甘肽Ｓ－转移酶（ｇｌｕｔａｔｈｉｏｎｅＳ－ｔｒａｎｓｆｅｒａｓｅｓ,ＧＳＴ）是一类具有多种生理功能的同功酶．从蜡螟幼虫（Ｇａｌｅｒｉａｍｅｌｏｎｅｌａ）的提取液中分离纯化谷胱甘肽Ｓ－转移酶的基本方法如下：首先将冷冻的蜡螟幼虫在磷酸缓冲液中匀桨,经１００００ｇ和１０００００ｇ分级离心;取上清液通过ＱＡＥ－ＳｅｐｈａｄｅｘＡ－２５离子交换柱层析除去部分色素和杂蛋白;然后采用谷胱甘肽－琼脂糖凝胶亲和层析（ＧＳＨ－ＱＴ４）,四溴酚酞二磺酸盐－琼脂糖凝胶亲和层析（ＢＳＰ－ＱＴ４）,铜离子－琼脂糖凝胶螯合层析（Ｃｕ２＋－ＱＴ４）及ＰＢＥ９４－Ｓｅｐｈａｒｏｓｅ（ＰＢＥ９４）聚焦层析等层析技术进一步分离纯化．将上述方法获得的色谱峰以ＣＤＮＢ和ＤＣＮＢ为底物检测生物活性．具有生物活性部分的蛋白质,通过ＳＤＳ－ＰＡＧＥ测定其分子量．实验结果表明,采用ＧＳＨ－ＱＴ４亲和层析法获得的活性峰,在ＳＤＳ－ＰＡＧＥ图谱上呈现出两条带,分子量为２４ｋＤ,２４．５ｋＤ左右;Ｃｕ２＋－ＱＴ６螯合层析法分离的活性峰,呈现出一条带,分子量为２４ｋＤ左右;ＰＢＥ９４－聚焦层析法分离获得三个活性峰：第一色谱峰,呈现出一条带,分子量为２３ｋＤ左右     

硒对培养人胚肝细胞Ⅲ型前胶原,羟脯氨酸合成的影响

原代培养人胚肝细胞经１．１５６×１０￣(－７）ｍｏｌ／Ｌ硒预处理４ｈ,加入２０ｍｍｏｌ／Ｌ四氟化碳作用２０ｈ,观察硒对其Ⅲ型前胶原（ＰＣⅢ）和羟脯氨酸（Ｈｙｐ）生成的影响。结果培养液中ＰＣⅢ水平、细胞内Ｈｙｐ含量及细胞内外丙二醛（ＭＤＡ）水平均降低,与未加硒对照组比较差别有显著性（Ｐ＜０．０１）。而硒谷腕甘肽过氧化物酶（Ｓｅ－ＧＳＨ－ＰＸ）活性则较对照组显著增高（Ｐ＜０．００１）,且ＰＣⅢ水平与Ｓｅ－ＧＳＨ－Ｐ＿Ｘ／ＭＤＡ比值呈负相关（ｒ＝－０．９１５６,Ｐ＜０．０１）。提示硒可提高Ｓｅ－ＧＳＨ－Ｐ＿Ｘ／ＭＤＡ比值,抑制脂质过氧化激发的肝细胞胶原合成。     

模拟谷胱甘肽过氧化物酶活性三肽的制备及其性质研究

开发一种制备硒代谷胱甘肽（ＧｓｅＨ）的新方法。以合成的谷氨酰－γ－丝氨酰－甘氨酸（Ｇｌｕ－Ｓｅｒ－Ｇｌｙ）三肽为原料,经苯甲基磺酰氟（ＰＭＳＦ）活化,用Ｈ＿２Ｓｅ突变Ｓｅｒ成硒代半脱氨酸（ＳｅＣｙｓ）制成ＧＳｅＨ。用元素分析及氨基酸分析确定此三肽的组成并推导出此三肽的结构。研究了ＧＳｅＨ的性质．结果表明,此三肽具有谷胱甘肽过氧化物酶（ＧＰＸ）的活性,其活力比其它一些小分子有机模拟物高,在性质上也有优于它们的一些特点,其动力学行为与天然ＧＰＸ类似。     

刺五加在大鼠实验性肝癌诱发过程中作用的探讨

目的探讨大鼠实验性肝癌发病中刺五加对肌体免疫功能和抗氧化酶活性的影响。方法４６只ＳＤ雄性大鼠被随机分成对照组（喂普通饲料）、３－甲基４－双甲氨基偶氮苯（３－Ｍｅ－ＤＡＢ）组（喂含０．０６％３Ｍｅ－ＤＡＢ饲料 １０周）和刺五加组（饲喂同 ３－Ｍｅ－ＤＡＢ外、另加入刺五加 ４．５ｇ／ｋｇ饲料,用常规方法检测全血谷光甘肽过氧化物酶（ＧＳＨ－ＰＸ）、血清超氧化物歧化酶（ＳＯＤ）活性和丙二醛（ＭＤＡ）含量,用微量化学发光造检测吞噬细胞活性（ＰＭＮ－ＣＬ）。结果１．ＰＭＮ－ＣＬ检测峰值、积分值和吞噬细胞指数,３－ＭｅＤＡＢ组较正常组和刺五加组均有显著升高（Ｐ＜０．０５和Ｐ＜０．０１）２．全血ＧＳＨ－ＰＸ活性、ＳＯＤ活性,刺五加组较３－ＭｅＤＡＢ组均有显著升高（Ｐ＜０．０５）。ＭＤＡ含量刺五加组和３－ＭｅＤＡＢ组均较正常组升高（均Ｐ＜０．０５）。结论刺五加在大鼠实验性肝癌诱发过程中有提高抗氧化酶活性和对抗致癌剂引起的机体中性粒细胞吞噬功能代偿性增高的作用。     

兼具SOD和GPX活力的双功能酶的制备及性质研究

用苯甲基磺酰氟（ＰＭＳＦ）和Ｈ_２Ｓｅ相继处理铜锌超氧化物岐化酶（Ｃｕ,Ｚｎ－ＳＯＤ）,将酶分子中的丝氨酸（Ｓｅｒ）转化为硒代半胱氨酸（ＳｅＣｙｓ）,从而引入了谷胱甘肽过氧化物酶（ＧＰＸ）的催化基团,使其在ＳＯＤ酶活性大部分保留的情况下,具有ＧＰＸ活性,其ＧＰＸ活力是ＰＺ５１活力的３０倍。研究了双功能酶的最佳制备条件,包括ＰＭＳＦ的剂量、反应最适温度及Ｈ_２Ｓｅ处理时间等,并用电子能谱、ＤＴＮＢ等方法测定了双功能酶的硒含量;测定了双功能酶对不同底物的米氏常数及双功能酶的荧光光谱、紫外吸收光谱及稳定性。     

模拟谷胱甘肽过氧化物酶活性三肽的制备及其性质研究

开发一种制备硒代谷胱甘肽（ＧＳｅＨ）的新方法,以合成的谷氨酰－γ丝氨酰－甘氨酸（Ｇｌｕ－Ｓｅｒ－Ｇｌｙ）三肽为原料,经苯甲基磺酰氟（ＰＭＳＦ）活化,用Ｈ２Ｓｅ突变Ｓｅｒ成硒代半胱氨酸（ＳｅＣｙｓ）制成ＧＳｅＨ．用元素分析及氨基酸分析确定此三肽的组成并推导出此三肽的结构,研究了ＧＳｅＨ的性质,结果表明,此三肽具有谷胱甘肽过氧化物酶（ＧＰＸ）的活性,其活力比其它一些小分子有机模拟物高,在性质上出有于它     

含硒抗体酶性质的研究

在成功地制备了具有谷胱甘肽过氧化物酶（ＧＰＸ）活性含硒抗体酶（Ｓｅ－ａｂｚｙｍｅ）的基础上,我们筛选了制备Ｓｅ－ａｂｚｙｍｅ的最佳条件,并对其理化性质及酶学性质和稳定性进行了深入的研究。结果表明,Ｓｅ－ａｂｚｙｍｅ的等电点为６．９５和７．０８,一为１５８ｋｄ;适ＰＨ和最适温度范围比天然酶宽广;抗体酶的贮藏稳定性比天然酶高。高Ｘ射线光电子能谱技术测得在Ｓｅ－ａｂｚｙｍｅ中含硒量为５ｍｏｌＳｅ／ｍｏｌ     

A new human catalytic antibody Se‐scFv‐2D8 and its selenium‐containing single domains with high GPX activity

Glutathione peroxidase (GPX) is a well‐known antioxidant selenoenzyme, which can catalyze the reduction of a variety of hydroperoxides and consequently protect cells and other biological tissues against oxidative damage. Many attempts have been made to mimic its function, and a human catalytic antibody Se‐scFv‐B3 with GPX activity has been prepared in our previous study. This time, a new clone 2D8 that bound specifically to the glutathione analog GSH‐S‐DNPBu was selected again by using the technology of phage display antibody library, and then scFv‐2D8 was successfully expressed in soluble form and purified using Ni²⁺‐immobilized metal affinity chromatography. After being converted into selenium‐containing scFv by chemically modification, it showed higher GPX activity than previous abzyme Se‐scFv‐B3. The heavy chain variable fragment of scFv‐2D8 was also prepared and converted into selenium‐containing protein using the same method. This selenium‐containing single‐domain antibody showed some GPX activity and, to the best of our knowledge, is the first human single‐domain abzyme with GPX activity, which lays a foundation for preparing GPX abzyme with human origin, lower molecular weight and higher activity. Copyright © 2009 John Wiley & Sons, Ltd.     

Molecular simulation studies of a selenium-containing scFv catalytic antibody that mimics glutathione peroxidase

GPX is a mammalian antioxidant selenoenzyme which protects biomembranes and other cellular components from oxidative damage by catalyzing the reduction of a variety of hydroperoxides (ROOH), using Glutathione (GSH) as the reducing substrate. The single-chain Fv fragment of the monoclonal antibody 2F3 (scFv2F3) can be converted into the selenium-containing Se-scFv2F3 by chemical modification of the serine. The new selenium-containing catalytic antibody Se-scFv2F3 acts as a glutathione peroxidase (GPX) mimic with high catalytic efficiency.In order to investigate which residue of scFv2F3 is converted into selenocysteine and to describe the proper reaction site of GSH to Se-scFv2F3, a three-dimensional structure of scFv2F3 is built by means of homology modeling. The 3D model is assessed by molecular dynamics (MD) simulation to determine its stability and by comparison with those of known protein structures. After the serine in the scFv2F3 is modified to selenocysteine, a catalytic antibody (abzyme) is obtained. From geometrical considerations, the solvent-accessible surface of the protein is examined. The computer-aided docking and energy minimization (EM) calculations of the abzyme–GSH complex are then carried out to explore the possible active site of the glutathione peroxidase mimic Se-scFv2F3. The structural information from the theoretically modeled complex can help us to further understand the catalytic mechanism of GPX.     

Improving GPX activity of selenium‐containing human single‐chain Fv antibody by site‐directed mutation based on the structural analysis

Glutathione peroxidase (GPX) is one of the important members of the antioxidant enzyme family. It can catalyze the reduction of hydroperoxides with glutathione to protect cells against oxidative damage. In previous studies, we have prepared the human catalytic antibody Se‐scFv‐B3 (selenium‐containing single‐chain Fv fragment of clone B3) with GPX activity by incorporating a catalytic group Sec (selenocysteine) into the binding site using chemical mutation; however, its activity was not very satisfying. In order to try to improve its GPX activity, structural analysis of the scFv‐B3 was carried out. A three‐dimensional (3D) structure of scFv‐B3 was constructed by means of homology modeling and binding site analysis was carried out. Computer‐aided docking and energy minimization (EM) calculations of the antibody‐GSH (glutathione) complex were also performed. From these simulations, Ala44 and Ala180 in the candidate binding sites were chosen to be mutated to serines respectively, which can be subsequently converted into the catalytic Sec group. The two mutated protein and wild type of the scFv were all expressed in soluble form in Escherichia coli Rosetta and purified by Ni²⁺‐immobilized metal affinity chromatography (IMAC), then transformed to selenium‐containing catalytic antibody with GPX activity by chemical modification of the reactive serine residues. The GPX activity of the mutated catalytic antibody Se‐scFv‐B3‐A180S was significantly increased compared to the original Se‐scFv‐B3. Copyright © 2009 John Wiley & Sons, Ltd.     

Dynamics of antibody nuclease activity in blood of women during pregnancy and lactation

In human milk we previously found catalytic antibodies (abzymes) catalyzing hydrolysis of DNA, RNA, NMP, NDP, and NTP and also phosphorylation of proteins and lipids. In the present study we have analyzed nuclease activities of antibodies in blood of women during pregnancy and lactation. Blood of healthy male and female volunteers lacked catalytically active antibodies, whereas antibodies from blood of pregnant women hydrolyzed DNA and RNA and their relative activity varied over a wide range. Relative blood abzyme activities significantly increased after delivery and at the beginning of lactation. The highest abzyme activity was observed in blood of parturient women. Although the dynamics of changes in antibody DNase activity during pregnancy was rather individual for each woman, there was a common trend in the increase in antibody activity in the first and/or third trimester of the pregnancy. The DNase activity of IgG and IgM from blood of healthy pregnant women was 4-5 times less than that from pregnant women with pronounced autoimmune thyroiditis.     

Overpassing an aberrant V(kappa) gene to sequence an anti-idiotypic abzyme with (beta)-lactamase-like activity that could have a linkage with autoimmune diseases.

A monoclonal antibody 9G4H9 that exhibits a beta-lactamase-like activity was previously obtained in accordance with the idiotypic network theory. This abzyme presents the most catalytic efficiency in amidase activity described in literature (kcat = 0.9 min-1). Some reports have demonstrated that functionality as complex as catalysis may be mimicked in this way. Comparison of the catalytic properties of both enzyme and abzyme previously allowed us to obtain better knowledge about 9G4H9 abzymatic machinery. In attempt to characterize this abzyme, the variable regions of kappa and heavy chain were cloned. We present a 'universal' method to clone the correct Vkappa gene to bypass aberrant Vkappa (abVkappa) produced by MOPC-21-derived hybridomas. Sequences obtained are compared in the GenBank database. The VH and Vkappa genes present some important sequence homology with autoantibodies suggesting a direct relationship between catalytic anti-idiotypic antibody and autoimmunity.     

Characterization of antibody covalently coupled to liposomes

We have explored the covalent coupling of fatty acids to immunoglobulin G(IgG). N-hydroxysuccinimide ester of palmitic acid (NHSP) was used to couple palmitic acid to either a mouse monoclonal antibody to the major histocompatibility antigen, H-2^k, or goat antibody to the major glycoprotein of the Molony Leukemia Virus, gp-70. The reaction was characterized in terms of the time course, input ratio of NHSP to IgG, stoichiometry of the coupling, distribution of palmitic acid in the IgG subunits, and the antigen binding capacity of the coupled antibody. Incorporation of the fatty acid modified IgG into liposomal membranes using a detergent-dialysis method was studied as a function of extent of fatty acid coupling. Finally, the binding of IgG-coated liposomes with cells expressing proper antigens was characterized. The major conclusions were: (1) the optimal molar ratio of NHSP to IgG in the reaction was between 10 and 20, which yields about 4–5 palmitoyl chains per IgG molecule; (2) at this level of coupling, the antigen binding capacity of the IgG antibody decreased about 3–4-fold; (3) incorporation of the coupled antibody into unilamellar liposomes (about 1000 Å diameter) can be achieved with a deoxycholate-dialysis method with an optimal lipid-to-protein ratio of 10:1 (w/w); (4) there were about 48 IgG molecules incorporated per liposome under these conditions; (5) the apparent dissociation constant of the liposome-bound antibody under the optimal condition was about 6–7-fold higher than that of the native antibody; (6) binding of antibody to the target cells was accompanied by binding of liposomal lipids; both bindings could be blocked by pretreatment of cell with unmodified antibody.     

噬菌体随机肽库筛选抗志贺样毒素Ⅱ结合亚单位Stx2B的单抗的识别表位

目的利用噬菌体随机肽库技术筛选志贺样毒素Ⅱ结合亚单位Stx2B的单抗的识别表位。方法以抗志贺样毒素Ⅱ结合亚单位Stx2B的单克隆抗体筛选噬菌体随机12肽库,挑取阳性克隆测定DNA序列,推导其氨基酸序列并进行同源性分析。通过ELISA鉴定获得的噬菌体短肽与单抗之间的结合特性。结果从噬菌体随机12肽库中筛选出20株可与抗志贺样毒素Ⅱ结合亚单位Stx2B的单抗特异结合的噬菌体克隆,其中多数克隆呈现核心序列WTSRW（Q）,该序列与志贺样毒素Ⅱ结合亚单位Stx2B的一级序列具有一定的同源性。结论WTSRW（Q）序列是志贺样毒素Ⅱ结合亚单位Stx2B单抗的识别表位。     

Photooxidation of cell membranes in the presence of hematoporphyrin derivative: reactivity of phospholipid and cholesterol hydroperoxides with glutathione peroxidase

The susceptibility of photodynamically-generated lipid hydroperoxides to reductive inactivation by glutathione peroxidase (GPX) has been investigated, using hematoporphyrin derivative as a photosensitizing agent and the human erythrocyte ghost as a target membrane. Photoperoxidized ghosts were reactive in a glutathione peroxidase/reductase (GPX/GRD)-coupled assay only after phospholipid hydrolysis by phospholipase A2 (PLA2). However, enzymatically determined lipid hydroperoxide values were consistently approx. 40% lower than iodometrically determined values throughout the course of photooxidation. Moreover, when irradiated ghosts were analyzed iodometrically during PLA2/GSH/GPX treatment, a residual 30-40% of non-reactive lipid hydroperoxide was observed. The possibility that cholesterol product(s) account for the non-reactive lipid hydroperoxide was examined by tracking cholesterol hydroperoxides in [14C]cholesterol-labeled ghosts. The sum of cholesterol hydroperoxides and GPX/GRD-detectable lipid hydroperoxides was found to agree closely with iodometrically determined lipid hydroperoxide throughout the course of irradiation. Thin-layer chromatography of total lipid extracts indicated that cholesterol hydroperoxide was unaffected by PLA2/GSH/GPX treatment, whereas most of the phospholipid peroxides were completely hydrolyzed and the released fatty acid peroxides were reduced to alcohols. It appears, therefore, that the GPX-resistant lipid hydroperoxides in photooxidized ghosts were derived primarily from cholesterol. Ascorbate plus Fe3+ produced a burst of free-radical lipid peroxidation in photooxidized, PLA2-treated ghosts. As expected for fatty acid hydroperoxide inactivation, the lipid peroxidation was inhibited by GSH/GPX, but only partially so, suggesting that cholesterol hydroperoxide-derived radicals play a major role in the reaction.