Intracellular ribosome display via SecM translation arrest as a selection for antibodies with enhanced cytosolic stability

Ribosome display is a powerful approach for affinity and stability maturation of recombinant antibodies. However, since ribosome display is performed entirely in vitro, there are several limitations to this approach including technical challenges associated with: (i) efficiently expressing and stalling antibodies on ribosomes using cell-free translation mixtures; and (ii) folding of antibodies in buffers where the concentration and composition of factors varies from that found in the intracellular milieu. We have developed a novel method for intracellular ribosome display that takes advantage of the recently discovered Escherichia coli SecM translation arrest mechanism. Specifically, we provide the first evidence that the encoding mRNA of SecM-stalled heterologous proteins remains stably attached to ribosomes, thereby enabling creation of stalled antibody-ribosome-mRNA (ARM) complexes entirely inside of living cells. Since ARM complexes faithfully maintain a genotype-phenotype link between the arrested antibody and its encoding mRNA, we demonstrate that this method is ideally suited for isolating stability-enhanced single-chain variable fragment (scFv) antibodies that are efficiently folded and functional in the bacterial cytoplasm.     

Efficient Recovery of High-Affinity Antibodies from a Single-Chain Fab Yeast Display Library

Yeast display is a powerful technology for the isolation of monoclonal antibodies (mAbs) against a target antigen. Antibody libraries have been displayed on the surface of yeast as both single-chain variable fragment (scFv) and antigen binding fragment (Fab). Here, we combine these two formats to display well-characterized mAbs as single-chain Fabs (scFabs) on the surface of yeast and construct the first scFab yeast display antibody library. When expressed on the surface of yeast, two out of three anti-human immunodeficiency virus (HIV)-1 mAbs bound with higher affinity as scFabs than scFvs. Also, the soluble scFab preparations exhibited binding and neutralization profiles comparable to that of the corresponding Fab fragments. Display of an immune HIV-1 scFab library on the surface of yeast, followed by rounds of sorting against HIV-1 gp120, allowed for the selection of 13 antigen-specific clones. When the same cDNA was used to construct the library in an scFv format, a similar number but a lower affinity set of clones were selected. Based on these results, yeast-displayed scFab libraries can be constructed and selected with high efficiency, characterized without the need for a reformatting step, and used to isolate higher-affinity antibodies than scFv libraries.     

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.     

鼠源抗B型肉毒毒素单链抗体噬菌体文库的构建筛选及抗体免疫学活性的初步研究

B型肉毒毒素重链C-端片段(BoNTB/Hc)经金属螯和层析法纯化后免疫Balb/c小鼠,从其脾淋巴细胞中提取总RNA,反转录成cDNA,用抗体可变区混合引物进行全套抗体重、轻链可变区基因的扩增,体外随机装配成单链抗体(scFv)。将其克隆至pCANTAB5E中,构建单链抗体噬菌体抗体库。结果表明经过4轮"吸附-洗脱-扩增"的富集过程,筛选获得高亲和力的克隆。序列测定符合抗体可变区结构特点。     

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 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.     

Conformation-dependent single-chain variable fragment antibodies specifically recognize beta-amyloid oligomers

Increasing evidence indicates that beta-amyloid (Aβ) oligomers rather than monomers or fibrils are the major toxic agents that specifically inhibit synaptic plasticity and long-term potentiation (LTP) in Alzheimer’s disease (AD). Neutralization of Aβ oligomeric toxicity was found to reverse memory deficits. Here, we report four single-chain variable fragment (scFv) antibodies isolated from the naive human scFv library by phage display that specifically recognized Aβ oligomers but not monomers and fibrils. These conformation-dependent scFv antibodies inhibit both Aβ fibrillation and cytotoxicity and bind to the same type of eptitope displayed on the Aβ oligomers. Such scFv antibodies specifically targeting toxic Aβ oligomers may have potential therapeutic and diagnostic applications for AD.     

噬菌体抗体库的构建及抗乳腺癌细胞单链抗体的筛选

构建抗人乳腺癌细胞MCF 7的噬菌体单链抗体库 ,从中筛选MCF 7细胞特异性单链抗体。用MCF-7细胞免疫BALB C小鼠 ,取脾脏 ,提取总RNA ,用RT-PCR技术扩增小鼠抗体重链 (V_H)和轻链 (V_L)可变区基因 ,经重叠PCR(SOE-PCR) ,在体外将V_H和V_{L连接成单链抗体 (scFv)基因 ,并克隆到噬菌粒载体pCANTAB5E中 ,电转化至大肠杆菌TG1,经辅助噬菌体超感染 ,构建噬菌体单链抗体库。从该抗体库中筛选特异性识别MCF-7细胞的噬菌体单链抗体 ,将表面展示单链抗体的单克隆噬菌体转化大肠杆菌TOP10进行可溶性表达。成功地构建了库容为12×10⁶ 的抗MCF-7乳腺癌细胞的单链抗体库 ,初步筛选到了与MCF 7细胞特异性结合的scFv,Westernblot检测表明 ,在大肠杆菌TOP10中实现了单链抗体可溶性表达}     

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.     

The production of mini antibodies against human granulocyte colony-stimulating factor using murine scFv combinatorial library

To develop a phage display of single-chain antibodies (scFv), fractions of total cell DNA and RNA were obtained from splenocytes of naive mice. The DNA fragments encoding variable regions of light and heavy immunoglobulin chains were amplified and isolated using primers specific to the conservative regions of these genes. The construction of the library was based on the principle of stochastic combining of the DNA fragments encoding the light and heavy antibody chains with the DNA linker, whose structure corresponded to the (Gly4Ser)3 sequence. The scFv library was constructed using the E. coli TG1 strain and the phagemid vector pHEN1. The repertoire of the library exceeded 5 x 10(7) independent recombinant clones. The clones producing antibodies to the granulocyte colony-stimulating human factor were isolated. The affinity constants of the resulting scFv were in the range of 2 x 10(4) to 1.8 x 10(7) M-1.     

Obligate multivalent recognition of cell surface tomoregulin following selection from a multivalent phage antibody library

A therapeutic antibody candidate (AT-19) isolated using multivalent phage display binds native tomoregulin (TR) as a mul-timer not as a monomer. This report raises the importance of screening and selecting phage antibodies on native antigen and reemphasizes the possibility that potentially valuable antibodies are discarded when a monomeric phage display system is used for screening. A detailed live cell panning selection and screening method to isolate multivalently active antibodies is described. AT-19 is a fully human antibody recognizing the cell surface protein TR, a proposed prostate cancer target for therapeutic antibody internalization. AT-19 was isolated from a multivalent single-chain variable fragment (scFv) antibody library rescued with hyperphage. The required multivalency for isolation of AT-19 is supported by fluorescence activated cell sorting data demonstrating binding of the multivalent AT-19 phage particles at high phage concentrations and failure of monovalent particles to bind. Pure monomeric scFv AT-19 does not bind native receptor on cells, whereas dimeric scFv or immunoglobulin G binds with nanomolar affinity. The isolation of AT-19 antibody with obligate bivalent binding activity to native TR is attributed to the use of a multivalent display of scFv on phage and the method for selecting and screening by alternate use of 2 recombinant cell lines.     

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.     

Development of recombinant scFv-antibodies against diphtheria toxin using phage display system

Phage display technology is an effective approach to the development of the next generation of immunodiagnostic reagents. Naive murine phage display a library of single-chain variable antibodies (scFv) was used to isolate scFv recognizing the diphtheria toxin, an important diagnostic antigen of diphtheria. The diphtheria toxin B subunit-binding clone with affinity constant of 1.13 x 10(7) M(-1) was selected. scFv preserved activity on storage in the course of 8 months.     

Cloning, expression and identification by immunohistochemistry of humanized single-chain variable fragment antibody against hepatitis C virus core protein

Expression of single-chain variable fragment (scFv) antibodies on the surface of bacteriophage is widely used to prepare antibodies with pre-defined specificities. A phage antibody library containing the gene for scFv antibody against Hepatitis C virus core protein was panned with core protein immobilized on microtiter plate wells. After five rounds of panning 60 phage clones specific to core protein were obtained and one selected clone was sequenced. It was found that the specifically detected antigen consists of 774bp and is capable of encoding 257 amino acids in the patients but not in healthy persons.     

Construction and characterization of combinatorial naive phage library of human scFvs

A combinatorial phage display library of human single-chain antibody fragments (scFv) was constructed on the basis of variable domains of heavy (Vh) and light (VI) genes cloned from the lymphocytes of six healthy donors. The size of the library was 2? 10(8) independent clones. Single-chain antibodies against recombinant human TNF?, vaccinia virus and virus-like particles formed by core protein of hepatitis B virus were selected from the library. Unique scFv sequences were identified using the HaeIII fingerprinting. The specificity of the selected clones was proved by the Western-blot analysis.     

Generation and characterization of C305, a murine neutralizing scFv antibody that can inhibit BLyS binding to its receptor BCMA

B-lymphocyte stimulator (BLyS) is a member of the tumor necrosis factor (TNF) family and a key regulator of B cell response. Neutralizing single-chain fragment variable (scFv) antibody against BLyS binding to its receptor BCMA has the potential to play a prominent role in autoimmune disease therapy. A phage display scFv library constructed on pill protein of MI 3 filamentous phage was screened using BLyS.After five rounds of panning, their binding activity was characterized by phage-ELISA. Nucleotide sequencing revealed that at least two different scFv gene fragments (C305 and D416) were obtained. The two different scFv gene fragments were expressed to obtain the soluble scFv antibodies, then the soluble scFv antibodies were characterized by means of competitive ELISA and in vitro neutralization assay. The results indicated that C305 is the neutralizing scFv antibody that can inhibit BLyS binding to its receptor BCMA.     

Construction and characterization of a pseudo-immune human antibody library using yeast surface display

Lymphocytes from eight individuals out of 60 healthy donors, whose plasmas showed relatively higher antibody titer for a target antigen of death receptor 5 (DR5), were selected for the source of antibody genes to construct so called an anti-DR5 pseudo-immune human single-chain fragment variable (scFv) library on the yeast cell surface (approximately 2x10(6) diversity). Compared with a large nonimmune human scFv library (approximately 1x10(9) diversity), the repertoire of the pseudo-immune scFv library was significantly biased toward the target antigen, which facilitated rapid enrichments of the target-specific high affinity scFvs during selections by fluorescence activated cell sortings. Isolated scFvs, HW5 and HW6, from the pseudo-immune library showed much higher specificity and affinity for the targeted antigen than those from the nonimmune library. Our results suggest that a pseudo-immune antibody library is very efficient to isolate target-specific high affinity antibody from a relatively small sized library.     

Screening and identification of human ZnT8-specific single-chain variable fragment (scFv) from type 1 diabetes phage display library

Zinc transporter 8(ZnT8) is a major autoantigen and a predictive marker in type 1 diabetes(T1D). To investigate ZnT8-specific antibodies, a phage display library from T1 D was constructed and single-chain antibodies against ZnT 8 were screened and identified. Human T1 D single-chain variable fragment(sc Fv) phage display library consists of approximately 1í10~8 clones. After four rounds of bio-panning, seven unique clones were positive by phage ELISA. Among them, C27 and C22, which demonstrated the highest affinity to ZnT8, were expressed in Escherichia coli Top10F' and then purified by affinity chromatography. C27 and C22 specifically bound ZnT8 N/C fusion protein and ZnT8 C terminal dimer with one Arg325 Trp mutation. The specificity to human islet cells of these sc Fvs were further confirmed by immunohistochemistry. In conclusion, we have successfully constructed a T1 D phage display antibody library and identified two ZnT8-specific sc Fv clones, C27 and C22. These ZnT8-specific sc Fvs are potential agents in immunodiagnostic and immunotherapy of T1 D.