Efficient protein selection based on ribosome display system with purified components

Using the PURE (Protein synthesis Using Recombinant Elements) system, we developed an efficient and highly controllable ribosome display method for selection of functional protein. The PURE system is composed of purified factors and enzymes that are responsible for gene expression in Escherichia coli. We performed the detailed analyses and optimization of the ribosome display system and demonstrated the formation of stable mRNA/ribosome/polypeptide ternary complexes. As complex formation is fundamental to successful ribosome display, these improvements resulted in a dramatic increase in the mRNA recovery rate. As a result, a approximately 12,000-fold enrichment of single-chain antibody (scFv) cDNA was achieved in a single round of selection. Specific selection of scFv mRNA from a 1:10(10) dilution in competitor mRNA was achieved with only three rounds of affinity selection. These findings, together with the results in the accompanying paper [T. Matsuura, H. Yanagida, J. Ushioda, I. Urabe, T. Yomo, Nascent chain, RNA, and ribosome complexes generated by pure translation system (see the accompanying paper).], demonstrate that the PURE system can provide a basis for reliable and reproducible ribosome display.     

Selection of functional human antibodies from retroviral display libraries

Antibody library technology represents a powerful tool for the discovery and design of antibodies with high affinity and specificity for their targets. To extend the technique to the expression and selection of antibody libraries in an eukaryotic environment, we provide here a proof of concept that retroviruses can be engineered for the display and selection of variable single-chain fragment (scFv) libraries. A retroviral library displaying the repertoire obtained after a single round of selection of a human synthetic scFv phage display library on laminin was generated. For selection, antigen-bound virus was efficiently recovered by an overlay with cells permissive for infection. This approach allowed more than 10³-fold enrichment of antigen binders in a single selection cycle. After three selection cycles, several scFvs were recovered showing similar laminin-binding activities but improved expression levels in mammalian cells as compared with a laminin-specific scFv selected by the conventional phage display approach. Thus, translational problems that occur when phage-selected antibodies have to be transferred onto mammalian expression systems to exert their therapeutic potential can be avoided by the use of retroviral display libraries.     

高效构建卵清白蛋白scFv噬菌体文库及其筛选

目的:建立一种高效噬菌体文库构建方法,获得抗鸡卵清蛋白(ovalbumin,OVA)的单链抗体(scFv)噬菌体展示文库,筛选鉴定获得OVA单链抗体。方法:用OVA蛋白免疫Balb/C小鼠,选取血清抗体效价高的小鼠提取脾脏RNA,利用RT-PCR方法扩增获得小鼠重链和小鼠轻链基因。通过无缝连接酶一步将小鼠重链基因、轻链基因和linker DNA连接起来,插入噬菌体表达载体中,构建OVA scFv噬菌体展示文库。测定文库容量,对文库进行富集筛选,ELISA鉴定阳性克隆,测序后构建真核表达载体,转入Expi-CHO悬浮细胞进行真核表达,利用Western blot进行鉴定。结果:成功获得库容量为1. 2×10~7cfu的OVA scFv噬菌体展示文库,并从中筛选出8个阳性克隆,选取效价最高的2号克隆,在Expi-CHO悬浮细胞中表达获得可溶性抗体。结论:建立了一种高效构建scFv噬菌体文库的方法,筛选获得高结合活性的OVA单链抗体,并成功进行了真核表达,为OVA ELISA检测试剂盒的研制奠定了基础。     

DARPins recognizing the tumor-associated antigen EpCAM selected by phage and ribosome display and engineered for multivalency

Designed Ankyrin Repeat Proteins (DARPins) represent a novel class of binding molecules. Their favorable biophysical properties such as high affinity, stability and expression yields make them ideal candidates for tumor targeting. Here, we describe the selection of DARPins specific for the tumor-associated antigen epithelial cell adhesion molecule (EpCAM), an approved therapeutic target on solid tumors. We selected DARPins from combinatorial libraries by both phage display and ribosome display and compared their binding on tumor cells. By further rounds of random mutagenesis and ribosome display selection, binders with picomolar affinity were obtained that were entirely monomeric and could be expressed at high yields in the cytoplasm of Escherichia coli. One of the binders, denoted Ec1, bound to EpCAM with picomolar affinity (K_d = 68 pM), and another selected DARPin (Ac2) recognized a different epitope on EpCAM. Through the use of a variety of bivalent and tetravalent arrangements with these DARPins, the off-rate on cells was further improved by up to 47-fold. All EpCAM-specific DARPins were efficiently internalized by receptor-mediated endocytosis, which is essential for intracellular delivery of anticancer agents to tumor cells. Thus, using EpCAM as a target, we provide evidence that DARPins can be conveniently selected and rationally engineered to high-affinity binders of various formats for tumor targeting.     

Selection of scFvs specific for the HepG2 cell line using ribosome display

The aim of this study was to construct a ribosome display library of single chain variable fragments (scFvs) associated with hepatocarcinoma and screen such a library for hepatocarcinoma-binding scFvs. mRNA was isolated from the spleens of mice immunized with hepatocellular carcinoma cell line HepG2. Heavy and k chain genes (VH and k) were amplified separately by RT-PCR, and an anti-HepG2 VH/k chain ribosome display library was constructed by assembling VH and k into the VH/k chain with a specially constructed linker by SOE-PCR. The VH/k chain library was transcribed and translated in vitro using a rabbit reticulocyte lysate system. In order to isolate specific scFvs, recognizing HepG2 negative selection on a normal hepatocyte line WRL-68 was carried out before three rounds of positive selection on HepG2. After three rounds of panning, cell enzyme-linked immunosorbent assay (ELISA) showed that one of the scFvs had high affinity for the HepG2 cell and lower affinity for the WRL-68 cell. In this study, we successfully constructed a native ribosome display library. Such a library would prove useful for direct intact cell panning using ribosome display technology. The selected scFv had a potential value for hepatocarcinoma treatment.     

利用核糖体展示技术筛选口蹄疫病毒 单链抗体基因

目的:利用核糖体展示技术筛选口蹄疫病毒特异性单链抗体基因。方法:在已构建好的核糖体展示文库的基础上,利用核糖体展示技术,经过5轮的体外转录、体外转译、亲和筛选和RT-PCR,将得到的序列进行测序分析。结果:筛选到FMDV scFv基因,且基因得到富集。结论:实验运用核糖体展示技术,以FMDV抗原和纯化的146S病毒粒子为靶标筛选到了FMDV scFv基因,将为scFv用于FMD的基础研究、免疫学研究以及为预防、治疗和诊断提供帮助,也为研制FMD的快速诊断技术奠定先前基础。     

Selection of bisphenol A – single-chain antibodies from a non-immunized mouse library by ribosome display

Developing reagents with high affinity and specificity are critical to detect the environmental hormones or toxicants. Ribosome display technology has been widely used in functional protein or peptide screening and in directed evolution of protein molecules in vitro. In this study, single-chain variable fragments (scFvs) against bisphenol A (BPA) were selected from a library constructed from splenocytes of non-immunized mice. After five rounds of selection, the selected scFvs bound to BPA with high affinity. Indirect competitive enzyme-linked immunosorbent assay (ELISA) was introduced to screen the antibody affinity and specificity to BPA. The equilibrium dissociation constants (KD_S) of one clone was 1.76 μM as determined by surface plasmon resonance (SPR). This study indicated that ribosome display can isolate binders to small molecules from a non-immunized naive library without any in vivo steps and can generate recombinant antibodies efficiently and rapidly. In addition, this study provides a methodological framework for detection of small molecules using recombinant antibodies.     

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.     

Filamentous bacteriophage display of a bifunctional protein A::scFv fusion

Filamentous bacteriophage display is a powerful and widely used technology for the selection of affinity ligands. However, the commonly used phagemid systems result in the production of a population of phage of which those displaying the ligand of interest represent only a small proportion. Through simple dilution and nonspecific binding effects, the presence of large numbers of ligand-free phage reduces the likelihood that weak binders will be successfully selected from a ligand library. To provide a means of avoiding such problems, we have introduced an affinity handle into the phage that permits the purification of ligand-displaying phage. The IgG binding domains ofStaphylococcus ciureus protein A (SpA) were fused to a ligand (single chain Fv[scFv]) which is displayed as a fusion with the phage surface protein ApIII. Phage-displaying SpA were separated by affinity chromatography using immobilized human IgG from non-displaying phage and the purified phage were shown to possess functional scFv. Comparisons of fusion proteins in which either the scFv or the affinity handle occupied the amino terminus of the fusion protein showed that, whereas SpA function was unaffected by position, scFv function was compromised when the scFv did not occupy the amino terminus.     

The development of peptide ligands that target helix 69 rRNA of bacterial ribosomes

Antibiotic resistance prevents successful treatment of common bacterial infections, making it clear that new target locations and drugs are required to resolve this ongoing challenge. The bacterial ribosome is a common target for antibacterials due to its essential contribution to cell viability. The focus of this work is a region of the ribosome called helix 69 (H69), which was recently identified as a secondary target site for aminoglycoside antibiotics. H69 has key roles in essential ribosomal processes such as subunit association, ribosome recycling, and tRNA selection. Conserved across phylogeny, bacterial H69 also contains two pseudouridines and one 3-methylpseudouridine. Phage display revealed a heptameric peptide sequence that targeted H69. Using solid-phase synthesis, peptide variants with higher affinity and improved selectivity to modified H69 were generated. Electrospray ionization mass spectrometry was used to determine relative apparent dissociation constants of the RNA–peptide complexes.     

Biotechnology techniques for the development of new tumor specific peptides

Peptides, proteins and antibodies are promising candidates as carriers for radionuclides in endoradiotherapy. This novel class of pharmaceuticals offers a great potential for the targeted therapy of cancer. The fact that some receptors are overexpressed in several tumor types and can be targeted by small peptides, proteins or antibodies conjugated to radionuclides has been used in the past for the development of peptide endoradiotherapeutic agents such as ⁹⁰Y-DOTATOC or radioimmunotherapy of lymphomas with Zevalin. These procedures have been shown to be powerful options for the treatment of cancer patients.Design of new peptide libraries and scaffolds combined with biopanning techniques like phage and ribosome display may lead to the discovery of new specific ligands for target structures overexpressed in malignant tumors. Display methods are high throughput systems which select for high affinity binders. These methods allow the screening of a vast amount of potential binding motifs which may be exposed to either cells overexpressing the target structures or in a cell-free system to the protein itself. Labelling these binders with radionuclides creates new potential tracers for application in diagnosis and endoradiotherapy. This review highlights the advantages and problems of phage and ribosome display for the identification and evaluation of new tumor specific peptides.     

A pseudoknot improves selection efficiency in ribosome display

The size and diversity of ribosome display libraries depends upon stability of the complex formed between the ribosome, mRNA and translated protein. To investigate if mRNA secondary structure improves stability of the complex, we tested a pseudoknot, originating from the genomic RNA of infectious bronchitis virus (IBV), a member of the positive-stranded coronavirus group. We used the previously-isolated anti-DNA scFv, 3D8, as a target protein. During in vitro translation in rabbit reticulocyte lysate, we observed that incorporation of the pseudoknot into the mRNA resulted in production of a translational intermediate that corresponded to the expected size for ribosomal arrest at the pseudoknot. Complexes containing the mRNA pseudoknot exhibited a higher efficiency of affinity selection than that those without, indicating that the pseudoknot improves stability of the mRNA-ribosome-antibody complex in a eukaryotic translation system. Thus, in order to improve the efficiency of selection, this relatively short pseudoknot sequence could be incorporated into ribosome display.     

Generation of a murine single chain Fv (scFv) antibody specific for cucumber mosaic virus (CMV) using a phage display library

With the long-term goal of generating CMV-resistant transgenic plants using antibody genes, a single-chain variable fragment (scFv) antibody that binds to the cucumber mosaic virus was isolated from a scFv phage display library by four rounds of affinity selection with CMV-Mf as an antigen. The scFv has the identical binding specificity to CMV as a monoclonal antibody that is generated by the hybridoma fusion technique, and recognized purified preparations of CMV isolates belonging to either subgroup I or II in immunoblotting. The nucleotide sequences of the recombinant antibody showed that a heavy chain variable region (V(H)) gene belonged to the VH3 subgroup and the kappa light chain variable region (V kappa) came from the Vkappa4 subgroup. Our results demonstrate that the scFv phage display library, an alternative approach to the traditional hybridoma fusion technique, has a potential applicability in the study of plant virus and plant pathology.     

A new approach for rapidly reshaping single-chain antibody in vitro by combining DNA shuffling with ribosome display

Antibody reshaping is an effective way to reduce the immunogenicity while maintaining or improving the affinity of murine antibodies. This paper describe a new in vitro approach for rapidly reshaping murine antibodies by combining DNA shuffling with ribosome display. With the new method, a reshaping anti-4-1BB single-chain antibody (scFv), Re-4B4-1 scFv, which bound to its antigen (4-1BB) specifically and strongly, was selected from a reshaping library. These results proved definitely the feasibility of the new designed approach for antibody reshaping.     

Chromato-panning: an efficient new mode of identifying suitable ligands from phage display libraries

Background  

Phage Display technology is a well established technique for high throughput screening of affinity ligands. Here we describe a new compact chromato-panning procedure for selection of suitable binders from a phage peptide display library.     

从噬菌体文库中筛选潜在的GMCSF的拮抗剂(英文)

以粒细胞巨噬细胞集落刺激因子（ＧＭＣＳＦ） 为筛选文库的靶分子, 通过高效筛选（Ｈｉｇｈ ｔｈｒｏｕｇｈｐｕｔｓｃｒｅｅｎｉｎｇ, ＨＴＳ） 方法来筛选多种多肽噬菌体文库, 在一个以噬菌体主要蛋白质为载体的多肽噬菌体文库中筛选到了一些与ＧＭＣＳＦ结合的多肽, 并通过了ＥＬＩＳＡ和微淘选（ｍｉｃｒｏｐａｎｎｉｎｇ） 实验的证实。这些多肽先导化合物经过进一步的优化, 可能成为ＧＭＣＳＦ细胞因子的拮抗剂