利用抗原结合多肽嫁接抗体技术制备抗hCG单域抗体

本研究旨在人绒毛膜促性腺激素(hCG)的结合多肽的基础上应用嫁接抗体技术制备抗hCG单域抗体,简化单域抗体制备过程,提高多肽生化稳定性。利用单域抗体通用骨架(cAbBCII10),以hCG结合多肽取代互补决定区CDR1或CDR3,合成cAb BCII10嫁接抗体全基因序列并与sfGFP基因序列融合后,插入到带有His标签的原核表达载体pET30a(+)中,成功构建了pET30a-(His6)-cAbBCII10-CDR1/hCGBP1-sfGFP与pET30a-(His6)-cAbBCII10-CDR3/hCGBP3-sfGFP融合蛋白表达质粒。将重组质粒转化大肠杆菌BL21(DE3),用IPTG诱导表达融合蛋白,得到高表达量的可溶性融合蛋白。利用Ni-NTA亲和柱纯化得到纯蛋白,应用SDS-PAGE鉴定纯化的蛋白为正确表达的目标蛋白。通过抗原抗体结合实验,发现hCG结合多肽嫁接到单域抗体通用骨架的互补决定区CDR1或CDR3后都有抗原结合活性,具有相似的抗体滴度,且嫁接到CDR3后的抗原结合活性比CDR1要高(2–3倍)。嫁接抗体基本保留了所用单域抗体框架较为稳定的生化特性,具有一定的热稳定性和较好的碱耐受性,同时,所接入的hCG结合片段对hCG具有较特异的结合活性,为进一步优化抗原结合多肽嫁接抗体技术制备抗hCG单域抗体提供了可靠的实验基础     

多肽噬菌体展示

噬菌体展示技术已被广泛地应用于生物学研究的各个方面.利用它可融合表达多肽、蛋白质结构域和蛋白质.尤其是多肽噬菌体展示,已被作为一种便利的研究工具去发现和研究那些与受体、酶、凝集素、抗体、核酸以及其他生物分子亲和的多肽配基和酶的底物专一性,该技术在药物的发现,疫苗的设计等医学领域也有着潜在的应用价值.     

利用大肠杆菌表达系统制备抗VEGF螺旋-环-螺旋多肽及其纯化的研究

VEGF(血管内皮生长因子)是一种诱导肿瘤血管形成的作用最强、特异性最高的血管生长因子.本实验利用抗VVEGF螺旋-环-螺旋多肽的基因M49,通过PCR技术扩增获得目的基因,构建原核表达pET-32a(+),转入大肠杆菌(Escherichia coli)BL21进行表达,并对目的蛋白进行诱导表达及纯化.结果表明PCR...     

体外分子展示技术

作为一项新的基因技术,体外分子展示技术的用途十分广泛.该文对各种体外分子展示技术的基本原理及相关应用进行综述,并展望其应用前景.     

嗜麦芽假单胞菌hCG结合蛋白抗体制备及其特性研究

用纯化的嗜麦芽假单胞菌（以下简称细菌）ｈＣＧ结合蛋白制备多克隆抗体。间接免疫沉淀实验证明,该抗体能识别细菌ｈＣＧ结合蛋白－［（１２５）~Ⅰ］ｈＣＧ复合物;配体印迹分析及免疫印迹分析发现,该蛋白能与［（１２５）~Ⅰ］ｈＣＧ发生特异的结合,其结合位置与抗体识别位置一致,为７０ｋＤ蛋白带;同时,该抗体不能特异地抑制细菌ｈＣＧ结合蛋白、大鼠睾丸或卵巢组织细胞膜制剂与［（１２５）~Ⅰ］ｈＣＧ结合。     

噬菌体展示技术筛选抗轮状病毒多肽的试验研究

从噬菌体随机展示十五肽文库筛选出4个与轮状病毒粒子特异性结合多肽。经空斑减少抑制实验和MTT法分析表明其中3个多肽对病毒感染培养细胞具有抑制作用,其中序列为QSNPIHIITNTRNHP的C肽具有显著抑制作用,抑制效果达93%,另外2个多肽A和B抑制效果分别为40%与50%。经过多肽序列分析发现这3个十五肽具有2个保守序列,分别是第2至8个氨基酸残基SNPIHII和第12～15个氨基酸残基NIP。胰蛋白酶水解位点分析表明C肽无裂解位点,而A肽和B肽则分别具有3个和4个潜在水解位点。抑制病毒感染液中胰蛋白酶活性,发现A,B两肽也能显著地抑制病毒离体感染。说明所筛选的多肽2个保守序列的完整对抗病毒感染起着重要作用。C肽有望成为一种治疗轮状病毒感染的口服药物。     

噬菌体抗体展示技术及其在抗新冠病毒抗体发现中的应用

噬菌体抗体展示技术是第一个也是目前应用最广泛的体外抗体筛选技术,可用于发现治疗各种疾病的全人源抗体。虽然存在不同的抗体发现方法,但噬菌体抗体展示技术已成为发现和优化靶标特异性单克隆抗体不可或缺的工具。研究人员可通过在丝状噬菌体上创建组合抗体库,从而在几周内获得抗原特异性抗体。在当前冠状病毒病(COVID-19)大流行的情况下,对中和抗体的研究激励着研究人员寻找出抗SARS-CoV-2的候选治疗药物。通过对噬菌体抗体库的筛选,目前已有许多不同的SARS-CoV-2中和抗体被发现。因此,本文综述了噬菌体抗体展示技术的原理,抗体库的构建、分类及淘选流程,并对其优点及局限性进行了讨论。此外,还总结了利用该技术发现抗SARS-CoV-2中和抗体的最新进展。旨为今后该技术在抗体发现中的应用提供理论支持。     

基于核糖体展示技术进行抗狂犬病毒人源抗体的制备

构建了核糖体展示人源抗狂犬病毒单链抗体(scFv)库,筛选制备特异抗狂犬病毒糖蛋白(RVGp)的稳定性人源抗体.应用核糖体抗体库技术,从经狂犬病毒Vero疫苗免疫的志愿者外周血淋巴细胞中分离、构建核糖体展示scFv基因库.体外转录翻译后,以RVGp重组蛋白作筛选抗原,采用亲和富集法淘选RVGp特异性scFv抗体基因.在原核系统pET22b(+)/BL21(DE3)中实现scFv抗体片段的可溶性表达,ELISA鉴定阳性克隆.然后对筛选的scFv进行稳定性改构,构建VH-Lc-VK稳定性抗体,并对其生物学活性进行初步研究.成功构建了库容量约为6.2×1012的核糖体展示scFv抗体基因库.在180个筛选克隆中,克隆RB24、RB71、RB109和RB156显示出较高的ELISA值,其基因序列分析结果显示,它们是全新的人源抗RVGp抗体.改构后的抗RVGp VH-Lc-VK抗体的稳定性明显改进,可特异识别RVGp并有效中和狂犬病毒,抑制狂犬病毒对靶细胞的感染.以上结果表明,人源抗RVGp特异性抗体的获得,为狂犬病的有效预防、诊断和治疗提供了新的途径,而且将为其他人源抗体的制备提供理论依据和技术基础.     

人CD24分子成熟多肽的原核表达及抗体制备

目的: 为获得抗人CD24分子成熟多肽核心蛋白(hCD24N)的多克隆抗体。方法: 制备CD24表达阳性的人肿瘤细胞cDNA,采用PCR法扩增hCD24N的编码基因,构建pGEX-KGV-hCD24N原核表达质粒;转化大肠杆菌BL21(DE3),乳糖诱导表达;经GST亲和柱层析、SDS-PAGE和Western blotting制备并鉴定纯化的GST-StraptagII-hCD24N融合蛋白;免疫新西兰大白兔制备抗血清并用rProtein A亲和柱层析纯化多克隆IgG抗体;用间接ELISA法测定抗体效价,Western blotting鉴定抗体特异性,同时采用细胞免疫荧光检测技术对抗体的特异性和应用可行性作进一步评价。结果: 实现了hCD24N基因的克隆以及在原核细胞中的可溶性重组融合表达,得到了纯化后的目的融合蛋白,并以其为免疫原获得了效价高于1:100 000的抗hCD24N多克隆抗体,Western blotting及细胞免疫荧光检测证明该抗体与当前市售的抗人CD24抗体具有相似的免疫反应特异性,并且能够与CD24阳性人肿瘤细胞表达并加工的高度糖基化CD24天然分子发生特异性抗原-抗体反应。结论: 抗hCD24N多克隆抗体的成功制备为进一步以CD24分子为靶点的肿瘤生物学基础研究以及相关癌症的诊断试剂开发奠定基础。     

类泛素化修饰蛋白SUMO1的表达纯化及抗体制备

SUMO是近年发现的类泛素化修饰蛋白,可通过异肽键共价连接到靶蛋白上,影响靶蛋白的细胞内定位、稳定性及与其它生物大分子的相互作用. 为研究蛋白质的SUMO化修饰,本文表达并利用亲和层析的方法纯化了重组的人SUMO1,制备了兔抗hSUMO1的多克隆抗体. 经ELISA和免疫印迹检测,获得了灵敏度高、特异性好的抗体,可用于SUMO化修饰靶蛋白的鉴定及SUMO化修饰的生物学功能研究.     

An effective peptide screening system using recombinant fluorescent bacterial surface display

An effective method for peptide screening of ligand-binding proteins was applied by using recombinant E. coli which is capable of expressing green fluorescent protein (GFP) and which can also express random peptides displayed on flagella of the cells. This screening method used a combination of fluorescence-activated cell sorting (FACS) and flagella display on the basis of a commercial FliTrx random peptide library for isolating the peptide-displaying clones which are able to bind Alexa 546 fluorescence-labeled cytochrome c. Flow cytometry simultaneously detected the two different fluorescence intensities, from GFP in the library and Alexa546-labeled to cytochrome c, enabling the specific clones bound to cytochrome c to be obtained from the first or second round of cell sorting. Compared with original FliTrx peptide screening system that requires repeating biopanning five times, our results suggested that detecting two different fluorescence intensities by flow cytometry is feasible for effective peptide screening.     

Purification of anti-MUC1 antibodies by peptide mimotope affinity chromatography using peptides derived from a polyvalent phage display library

A polyvalent, lytic phage display system (T7Select415-1b) displaying a random peptide library has been investigated for its ability to discover novel mimotopes reactive with the therapeutic monoclonal antibody C595. Sequence analysis of enriched phage lead to the identification of a predominant sequence RNREAPRGKICS, and two other consensus sequences RXXP and RXP. The novel synthetic peptide RNREAPRGKICS was linked to beaded agarose and the performance as a mimotope affinity chromatography matrix evaluated. Antibody purified using the novel matrix was found to be of higher specific reactivity than antibody purified using the conventional epitope matrix (peptide APDTRPAPG). The RNREAPRGKICS peptide binding to C595 demonstrated a higher equilibrium association constant (K(A)=0.75 x 10(6)) than the epitope peptide (K(A)=0.16 x 10(6)). Circular dichroism showed that the novel peptide had a more highly ordered structure at 4 degrees C and room temperature, than the epitope peptide.     

Expansion of protein interaction maps by phage peptide display using MDM2 as a prototypical conformationally flexible target protein

Expanding on the possible protein interaction partners in a biochemical pathway is one key molecular goal in the post-genomic era. Phage peptide display is a versatile in vitro tool for mapping novel protein-protein interfaces and the advantage of this technique in expanding protein interaction maps is that in vitro manipulation of the bait protein conformational integrity can be controlled carefully. Phage peptide display was used to expand on the possible types of binding proteins for the conformationally responsive protein MDM2. Peptides enriched differ depending upon whether MDM2 is ligand-free, zinc-bound, or RNA-bound, suggesting that MDM2 conformational changes alter the type of peptide ligands enriched. Classes of putative/established MDM2-binding proteins identified by this technique included ubiquitin-modifying enzymes (F-box proteins, UB-ligases, UBC-E1) and apoptotic modifiers (HSP90, GAS1, APAF1, p53). Of the many putative MDM2 proteins that could be examined, the impact of HSP90 on MDM2 activity was studied, since HSP90 has been linked with p53 protein unfolding in human cancers. Zinc ions were required to reconstitute a stable MDM2-HSP90 protein complex. Zinc binding converted MDM2 from a monomer to an oligomer, and activated MDM2 binding to its internal RING finger domain, providing evidence for a conformational change in MDM2 protein when it binds zinc. Reconstitution of an HSP90-MDM2 protein complex in vitro stimulated the unfolding of the p53 tetramer. A p53 DNA-binding inhibitor purified from human cells that is capable of unfolding p53 at ambient temperature in vitro contains co-purifying pools of HSP90 and MDM2. These data highlight the utility of phage peptide display as a powerful in vitro method to identify regulatory proteins that bind to a conformationally flexible protein like MDM2.     

Screening and identification of a specific peptide binding to hepatocellular carcinoma cells from a phage display peptide library

To screen and identify the novel probe markers binding hepatocellular carcinoma specifically and sensitively, a phage‐displayed 12‐mer peptide library was used to make biopanning with the modified protocols on HepG2 cells. After four rounds of panning, the consensus sequences were obtained, and the PC28, a phage clone with most specific and sensitive binding to HepG2 cells, was identified as the best positive clone. The peptide probe HCSP4 (sequence SLDSTHTHAPWP) was synthesized based on the sequencing result of PC28. The specificity and sensitivity of HCSP4 were primarily analyzed using immunofluorescence, flow cytometry, and other methods. The results show that HCSP4 can bind to hepatocellular carcinoma cells with satisfactory specificity and sensitivity. It may be a promising lead candidate for molecular imaging and targeted drug delivery in the diagnosis and therapy of hepatocellular carcinoma. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Ribosome display selection of a metal-binding motif from an artificial peptide library

A new ribosome display system was applied for the in vitro selection of a metal-binding motif from an artificial peptide library. The display system consisted of an mRNA-associating protein, a ribosome, and mRNA. The protein part of this display system was designed to provide a random peptide library and to stabilize the ribosome display. The random peptide library was newly designed to isolate stable metal-binding motifs. We employed the system for in vitro selection and found several new proteins and peptides that bind Co(II)-immobilized resin and Co(II)-complex, respectively. This newly developed system can be conveniently applied to the in vitro selection of peptide aptamers.     

交替洗脱法筛选高亲和力噬菌体肽

以人胰岛素为靶蛋白从七肽展示库中筛选高亲和力噬菌体肽,在洗脱阶段采用酸性洗脱液和高浓度靶蛋白溶液进行4次交替洗脱,选择性回收高亲和力噬菌体肽。测定滴度计算回收率,ELISA法分别测定噬菌体洗脱液整体亲和力和噬菌体单克隆的结合特性并计算亲合率。洗脱步骤采用4次交替洗脱后,第二轮第4次噬菌体的回收率比第一轮增长了1800倍,高亲和力噬菌体在洗脱液中所占比例也迅速提高,第二轮第4次洗脱液中达75％,在第三轮的各次洗脱液中几乎均达100％。建立了一种快速筛选高亲和力噬菌体肽的方法,改进后的筛选方法能使高亲和力噬菌体肽的筛选工作更为简便且效果显著。     

Glutamine (Q)‐peptide screening for transglutaminase reaction using mRNA display

Information on subsite specificity of the transglutaminase (TG) is important to design any specific peptides for TG's applications and inhibitor studies. Here, mRNA display was introduced for identifying the subsite specificity of TG from Streptomyces mobaraensis (STG). Functionally active peptides expressed from mRNA display library were differentially conjugated to hexa lysine (K₆)—beads according to their relative activities for STG. The active peptide substrates for STG were enriched through six rounds of screening, and its corresponding cDNA/mRNA sequences were identified by DNA sequencing. The results showed that tripeptides such as LQQ and TQP do not show any activity for STG, but the minimum size of the peptide displaying STG activity is pentapeptide. One such predicted peptide sequence, that is, RLQQP (TQ1), showed higher reactivity (ca. 182% conjugation yield) to STG than that of the highly active sequence, that is, control‐Q (PQPQLPYPQPQLPY), well‐known previously for mammalian TG2. Furthermore, when recombinant DsRed was tagged with TQ1 sequence at its C‐terminal, DsRed‐TQ1 underwent efficient covalent‐immobilization onto alginate–gelatin bead by STG reaction, showing a Q‐peptide application as a useful tagging molecule. Biotechnol. Bioeng. 2013; 110: 353–362. © 2012 Wiley Periodicals, Inc.     

Identification of epitopes recognized by monoclonal antibodies directed against HTLV-I envelope surface glycoprotein using peptide phage display

Phage peptide libraries constitute powerful tools for themapping of epitopes recognized by monoclonal antibodies (mAbs).Using screening of phage displayed random peptide libraries wehave characterized the binding epitopes of three mAbs directedagainst the surface envelope glycoprotein (gp46) of the humanT-cell leukemia virus type I (HTLV-I). Two phage libraries,displaying random heptapeptides with or without flankingcysteine residues, were screened for binding to mAbs 7G5D8, DB4and 4F5F6. The SSSSTPL consensus sequence isolated fromconstrained heptapeptide library defines the epitope recognizedby DB4 mAb and corresponds to the exact region 249–252 of thevirus sequence. The APPMLPH consensus sequence isolated fromnon constrained heptapeptide library defines the epitoperecognized by 7G5D8 mAb and corresponds to the region 187–193with a single amino acid substitution, methionine to leucine atposition 190. The third consensus sequence LYWPHD isolated fromconstrained heptapeptide library defines the epitope recognizedby 4F5F6 mAb. It corresponds to an epitope without directequivalence with the virus sequence. The data presented hereshowed that 7G5D8 and DB4 mAbs are raised against linearepitopes while 4F5F6 mAb recognized a continuous topographic epitope.     

Identification of epitopes recognized by monoclonal antibodies directed against HTLV-I envelope surface glycoprotein using peptide phage display

Summary Phage peptide libraries constitute powerful tools for the mapping of epitopes recognized by monoclonal antibodies (mAbs). Using screening of phage displayed random peptide libraries we have characterized the binding epitopes of three mAbs directed against the surface envelope glycoprotein (gp46) of the human T-cell leukemia virus type I (HTLV-I). Two phage libraries, displaying random heptapeptides with or without flanking cysteine residues, were screened for binding to mAbs 7G5D8, DB4 and 4F5F6. The SSSSTPL consensus sequence isolated from constrained heptapeptide library defines the epitope recognized by DB4 mAb and corresponds to the exact region 249–252 of the virus sequence. The APPMLPH consensus sequence isolated from non constrained heptapeptide library defines the epitope recognized by 7G5D8 mAb and corresponds to the region 187–193 with a single amino acid substitution, methionine to leucine at position 190. The third consensus sequence LYWPHD isolated from constrained heptapeptide library defines the epitope recognized by 4F5F6 mAb. It corresponds to an epitope without direct equivalence with the virus sequence. The data presented here showed that 7G5D8 and DB4 mAbs are raised against linear epitopes while 4F5F6 mAb recognized a continoous topographic epitope.