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.     

Method for generation of human hyperdiversified antibody fragment library

The selection of antibody fragments from libraries using in vitro screening technologies has proven to be a very good alternative to the classical hybridoma technology, and has overcome the laborious process of antibody humanization. However, the complexity of the library is critical in the probability of being able to directly isolate a high affinity antibody specific to a target. We report a method to make hyperdiversified antibody fragment libraries, based on human immunoglobulin variable genes mimicking the somatic hypermutation process. This mutagenesis technology, MutaGen, was used for the first time on the entire variable domain (frameworks and CDRs) of large repertoires of human variable antibody domains. Our MutaGen process uses low-fidelity human polymerases, known as mutases, suggested to be involved in the somatic hypermutation process of immunoglobulin genes. Depending on the mutases used, we generated complementary mutation patterns with randomly distributed mutations. The libraries were generated with an average of 1.8 mutations per 100 amino acids. The hyperdiversified antibody fragment libraries constructed with our process should enable the selection of antibody fragments specific to virtually any target.     

Design, construction, and characterization of a large synthetic human antibody phage display library

Advances in proteomic research allow the identification of several hundred protein components in complex biological specimens. Structural information is typically lost during proteomic investigations. For this reason, the rapid isolation of monoclonal antibodies specific to proteins of interest would allow the study of structurally intact biological specimens, thus providing complementary proteomic information. Here, we describe the design, construction, characterization, and use of a large synthetic human antibody phage display library (ETH-2-Gold) containing three billion individual antibody clones. A large repertoire of antibodies with similar biochemical properties was produced by appending short variable complementarity-determining region 3 (CDR3) onto three antibody germline segments (DP47, DPK22, and DPL16), which are frequently found in human antibodies. The ETH-2-Gold library exhibits efficient display of antibody fragments on filamentous phage, as assessed by immunoblot. Furthermore, the library is highly functional, since >90% of clones express soluble antibodies in bacteria and since good quality monoclonal antibodies have been isolated against 16 different antigens. The usefulness of the library as a tool for generating monoclonal antibodies for biomedical applications was tested using the C-domain of tenascin-C (a marker of angiogenesis) as antigen and showing that specific antibodies to this target were able to stain vascular structures in tumor sections.     

Thermodynamic consequences of mutations in vernier zone residues of a humanized anti-human epidermal growth factor receptor murine antibody, 528

To investigate the role of Vernier zone residues, which are comprised in the framework regions and underlie the complementarity-determining regions (CDRs) of antibodies, in the specific, high affinity interactions of antibodies with their targets, we focused on the variable domain fragment of murine anti-human epidermal growth factor receptor antibody 528 (m528Fv). Grafting of the CDRs of m528Fv onto a selected framework region of human antibodies, referred to as humanization, reduced the antibody's affinity for its target by a factor of 1/40. The reduction in affinity was due to a substantial reduction in the negative enthalpy change associated with binding. Crystal structures of the ligand-free antibody fragments showed no noteworthy conformational changes due to humanization, and the loop structures of the CDRs of the humanized antibodies were identical to those of the parent antibodies. Several mutants of the CDR-grafted (humanized) variable domain fragment (h528Fv), in which some of the Vernier zone residues in the heavy chain were replaced with the parental murine residues, were constructed and prepared using a bacterial expression system. Thermodynamic analyses of the interactions between the mutants and the soluble extracellular domain of epidermal growth factor receptor showed that several single mutations and a double mutation increased the negative enthalpy and heat capacity changes. Combination of these mutations, however, led to somewhat reduced negative enthalpy and heat capacity changes. The affinity of each mutant for the target was within the range for the wild-type h528Fv, and this similarity was due to enthalpy-entropy compensation. These results suggest that Vernier zone residues make enthalpic contributions to antigen binding and that the regulation of conformational entropy changes upon humanization of murine antibodies must be carefully considered and optimized.     

特异结合人禽流感病毒H5N1的scFv分子性能鉴定

目的从人源化噬菌体抗体库（human single fold scFv libraries I＋J）中筛选到能高亲和性、特异结合人禽流感病毒H5N1的单链抗体,为建立H5N1快速筛查试剂和人源化治疗单抗奠定基础。方法以H5N1病毒的血凝素（hemagglutitin,HA）蛋白和核蛋白（nucleoprotein,NP）为目的蛋白,对上述单抗噬菌体文库以亲和性为原理进行筛选,经过3轮筛选富集后,随机挑选了96个噬菌体克隆扩增培养,ELISA法挑选能特异性、高亲和性结合目的蛋白的噬菌体克隆,并换用HB2151宿主菌对阳性单链抗体克隆进行可溶性表达,ELISA法鉴定可溶性单链抗体的结合活性,PCR扩增阳性克隆的轻、重链基因片段,并对阳性单链抗体分子测序和序列分析。结果经过3轮筛选,分别从96个噬菌体克隆中挑选到了两株能特异结合NP蛋白、3株能特异结合HA蛋白的单链抗体,PCR扩增都得到了长为300、302和935bp的轻链、重链和轻链-连接片段-重链的基因片段,测序结果分析发现上述5条单链抗体片段在轻链的47、49、50、51、53、54、56、96、97、98和99位的氨基酸组成不同,而特异结合NP蛋白的单链在重链区域氨基酸组成完全相同,而特异结合HA蛋白的单链在重链的44、47、85、86、87、88和89位氨基酸组成不同。结论从噬菌体抗体库中筛选到的特异结合HA和NP蛋白的单链抗体片段,可为进一步研发H5N1快速筛选试剂和人源性治疗抗体奠定基础,也可为鉴定HA和NP蛋白中的抗原决定簇提供结构信息。     

One-step zero-background IgG reformatting of phage-displayed antibody fragments enabling rapid and high-throughput lead identification

We describe a novel cloning method, referred to as insert-tagged (InTag) positive selection, for the rapid one-step reformatting of phage-displayed antibody fragments to full-length immunoglobulin Gs (IgGs). InTag positive selection enables recombinant clones of interest to be directly selected without cloning background, bypassing the laborious process of plating out cultures and colony screening and enabling the cloning procedure to be automated and performed in a high-throughput format. This removes a significant bottleneck in the functional screening of phage-derived antibody candidates and enables a large number of clones to be directly reformatted into IgG without the intermediate step of Escherichia coli expression and testing of soluble antibody fragments. The use of InTag positive selection with the Dyax Fab-on-phage antibody library is demonstrated, and optimized methods for the small-scale transient expression of IgGs at high levels are described. InTag positive selection cloning has the potential for wide application in high-throughput DNA cloning involving multiple inserts, markedly improving the speed and quality of selections from protein libraries.     

从大容量噬菌体抗体库中筛选抗Acr蛋白人源单链抗体

目的:从天然的大容量噬菌体抗体库中筛选特异的抗结核分枝杆菌晶体蛋白( alpha-crystallin Acr)的人源抗体.方法:以结核分枝杆菌Acr蛋白包被免疫管,通过对噬菌体抗体库进行4轮“吸附-洗脱-扩增”的过程从大容量抗体库中筛选特异性抗结核分枝杆菌Acr蛋白的抗体,并对可变区序列进行了测序分析.将特异性的噬菌体抗体感染HB2151菌,经IPTG诱导表达,制备了抗结核分枝杆菌Acr蛋白的可溶性单链抗体;对其序列和抗原结合活性进行分析鉴定.结果:经过4轮筛选,获得了43个与结核分枝杆菌Acr蛋白结合的阳性克隆,其中29个特异结合的克隆;测序分析有26不同的可变区片段;通过可溶性单链抗体(scFv)表达筛选到14株特异性结合Acr蛋白的可溶性单链抗体克隆;经过基因测序,分析了可变区基因的亚群.成功制备了可溶性单链抗体.Westren blotting分析证实筛选的人源单链抗体能与天然蛋白结合.结论:利用单链大容量抗体库获得抗结核分枝杆菌Acr蛋白的噬菌体抗体并且成功制备抗结核分枝杆菌Acr天然蛋白的可溶性单链抗体,为今后的研究和应用奠定基础.     

Generation of human high-affinity antibodies specific for the fibroblast activation protein by guided selection.

Four completely human antibody derivatives [single-chain-antibody fragments (scFvs)] with specificity for the general tumor stroma marker fibroblast activation protein (FAP) were isolated by guided selection. Highly diverse IgG, IgM and IgD isotypes comprising heavy-chain variable domain libraries were generated using cDNAs derived from diverse lymphoid organs of a multitude of donors. Three of the human scFvs were converted into bivalent minibodies and expressed in eukaryotic cells for further functional characterization. Binding-competition studies and analysis by fluorescence-activated cell sorting showed high-affinity binding (10--20 nM) for two clones and recognition of the same epitope as the murine guiding antibody. The minibodies were successfully used for immunohistology of a variety of human carcinoma biopsies, revealing specific staining of stromal fibroblasts. Therefore, they should be suitable for in vivo diagnostic and tumor-targeting studies and, because of their completely human origin, be superior to murine or humanized antibody derivatives.     

Efficient construction of a diabody using a refolding system: anti-carcinoembryonic antigen recombinant antibody fragment

Recombinant fragments of the variable region of antibodies are useful in many experimental and clinical applications. However, it can be difficult to obtain these materials in soluble form after their expression in bacteria. Here, we report an efficient procedure for preparing several variable-domain fragments (Fv), single-chain Fv (scFv), and a diabody (the smallest functional bispecific antibody) of anti-carcinoembryonic antigen (CEA) antibody by overexpression in Escherichia coli in inclusion bodies, using a refolding system to obtain renatured proteins. Two types of refolded Fv were prepared: (i) Heavy and light chains of the immunoglobulin variable regions (VH and VL, respectively) were coexpressed with a dicistronic expression vector (designated Fv(co)); (ii) VH and VL were expressed separately, mixed stoichiometrically, and refolded (designated Fv(mix)). All samples refolded with high efficiency; Fv(co), Fv(mix), scFv, and the bispecific diabody bound to several CEA-positive cell lines, exactly as did soluble Fv fragments secreted by E. coli (Fv(sol)) and the parent IgG. The refolded fragments inhibited binding of the parent IgG to CEA-positive cell lines, indicating that their epitope is identical to that of IgG. The bispecific diabody, which combined variable-region fragments of anti-CEA antibody with variable-region fragments of anti-CD3 antibody, was also prepared using the refolding system. This refolded diabody could bind to lymphokine-activated killer cells. In addition, its cytotoxicity toward human bile duct carcinoma TFK-1 and other several other CEA-positive cell lines was concentration-dependent. Taken together, our results suggest that a refolding procedure can be used to prepare various functional antibody fragments (Fv, scFv, and diabody).     

A comparison of three strategies for biopanning of phage-scFv library against diphtheria toxin

The biopanning process is a critical step in phage display for isolating peptides or proteins with specific binding properties. Conventional panning methods are sometimes not so effective and may result in nonspecific or low-yield positive results. In this study, three different strategies including soluble antibody-capturing, pH-stepwise elution, and conventional panning were used for enrichment of specific clones against diphtheria toxoid. The reactivity of the selected clones was evaluated using an indirect enzyme-linked immunosorbent assay. The positive clones were screened using Vero cell viability assay. The neutralizing clones were expressed in HB2151 strain of Escherichia coli and soluble single-chain fragment variable (scFv) fragments were purified by nickel-nitrilotriacetic acid affinity chromatography. Finally, the ability of scFv fragments for neutralizing diphtheria toxin (DT) were evaluated again using Vero cell viability assay. After four rounds of panning, the soluble antibody-capturing method yielded 15 positive phage-scFv clones against diphtheria toxoid. Conventional panning and pH-stepwise elution model resulted from nine and five positive phage-scFv clones, respectively. Among all positive clones, three clones were able to neutralize DT in Vero cell viability assay. Two of these clones belonged to a soluble antibody-capturing method and one of them came from conventional panning. Three neutralizing clones were used for soluble expression and purification of scFvs fragments. It was found that these soluble scFv fragments possessed neutralizing activity ranging from 0.15 to 0.6 µg against two-fold cytotoxic dose 99% of DT. In conclusion, the results of our study indicate that soluble antibody-capturing method is an efficient method for isolation of specific scFv fragments.     

Selection of human antibody fragments by phage display

Here, we describe a protocol for the selection of human antibody fragments using repertoires displayed on filamentous bacteriophage. Antigen-specific clones are enriched by binding to immobilized antigen, followed by elution and repropagation of phage. After multiple rounds of binding selection, specific clones are identified by ELISA. This article provides an overview of phage display and antibody technology, as well as detailed protocols for the immobilization of antigen, the selection of repertoires on purified or complex antigens and the identification of binders.     

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.     

Efficient isolation of soluble intracellular single-chain antibodies using the twin-arginine translocation machinery

One of the most commonly used recombinant antibody formats is the single-chain variable fragment (scFv) that consists of the antibody variable heavy chain connected to the variable light chain by a flexible linker. Since disulfide bonds are often necessary for scFv folding, it can be challenging to express scFvs in the reducing environment of the cytosol. Thus, we sought to develop a method for antigen-independent selection of scFvs that are stable in the reducing cytosol of bacteria. To this end, we applied a recently developed genetic selection for protein folding and solubility based on the quality control feature of the Escherichia coli twin-arginine translocation (Tat) pathway. This selection employs a tripartite sandwich fusion of a protein-of-interest with an N-terminal Tat-specific signal peptide and C-terminal TEM1 β-lactamase, thereby coupling antibiotic resistance with Tat pathway export. Here, we adapted this assay to develop intrabody selection after Tat export (ISELATE), a high-throughput selection strategy for the identification of solubility-enhanced scFv sequences. Using ISELATE for three rounds of laboratory evolution, it was possible to evolve a soluble scFv from an insoluble parental sequence. We show also that ISELATE enables focusing of an scFv library in soluble sequence space before functional screening and thus can be used to increase the likelihood of finding functional intrabodies. Finally, the technique was used to screen a large repertoire of naïve scFvs for clones that conferred significant levels of soluble accumulation. Our results reveal that the Tat quality control mechanism can be harnessed for molecular evolution of scFvs that are soluble in the reducing cytoplasm of E. coli.     

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.     

A semi-synthetic repertoire of intrinsically stable antibody fragments derived from a single-framework scaffold.

We report the design, construction and use of an antibody bacteriophage display library built on the scaffold of a single-chain variable fragment (scFv) previously proven to be functionally expressed in the reducing environment of both bacterial and plant cytoplasm and endowed with intrinsic high thermodynamic stability. Four amino acid residues of the third hypervariable loop (CDR3) of both VH and VL were combinatorially mutated, generating a repertoire of approximately 5x10(7) independent scFvs, cloned in a phagemid vector. The ability of the antibody phage library to yield specific binders was tested by biopanning against several antigens. Successful selection of fully active scFvs was obtained, confirming the notion that combinatorial mutagenesis of few amino acid residues centrally located in the antigen-binding site is sufficient to provide binding specificities against virtually any target. High yields of both soluble and phage antibodies were obtained in Escherichia coli. Maintenance of the cognate scFv antibody stability in the newly selected scFv fragments was demonstrated by guanidinium chloride denaturation/renaturation studies and by soluble antibody expression in the bacterial cytoplasm. The antibody library described here allows the isolation of new stable binding specificities, potentially exploitable as immunochemical reagents for intracellular applications.     

Expression of high-affinity human antibody fragments in bacteria

Here we describe protocols for the expression of human antibody fragments in Escherichia coli. Antigen-specific clones are identified by soluble fragment ELISA and concentrated by periplasmic preparation. They are then further purified by affinity chromatography. This article provides an overview of expression and purification strategies for human antibody fragments, as well as detailed protocols for the identification of high-affinity binders and for affinity maturation.     

Evolution of an interloop disulfide bond in high-affinity antibody mimics based on fibronectin type III domain and selected by yeast surface display: molecular convergence with single-domain camelid and shark antibodies

The 10th human fibronectin type III domain ((10)Fn3) is one of several protein scaffolds used to design and select families of proteins that bind with high affinity and specificity to macromolecular targets. To date, the highest affinity (10)Fn3 variants have been selected by mRNA display of libraries generated by randomizing all three complementarity-determining region -like loops of the (10)Fn3 scaffold. The sub-nanomolar affinities of such antibody mimics have been attributed to the extremely large size of the library accessible by mRNA display (10(12) unique sequences). Here we describe the selection and affinity maturation of (10)Fn3-based antibody mimics with dissociation constants as low as 350 pM selected from significantly smaller libraries (10(7)-10(9) different sequences), which were constructed by randomizing only 14 (10)Fn3 residues. The finding that two adjacent loops in human (10)Fn3 provide a large enough variable surface area to select high-affinity antibody mimics is significant because a smaller deviation from wild-type (10)Fn3 sequence is associated with a higher stability of selected antibody mimics. Our results also demonstrate the utility of an affinity-maturation strategy that led to a 340-fold improvement in affinity by maximizing sampling of sequence space close to the original selected antibody mimic. A striking feature of the highest affinity antibody mimics selected against lysozyme is a pair of cysteines on adjacent loops, in positions 28 and 77, which are critical for the affinity of the (10)Fn3 variant for its target and are close enough to form a disulfide bond. The selection of this cysteine pair is structurally analogous to the natural evolution of disulfide bonds found in new antigen receptors of cartilaginous fish and in camelid heavy-chain variable domains. We propose that future library designs incorporating such an interloop disulfide will further facilitate the selection of high-affinity, highly stable antibody mimics from libraries accessible to phage and yeast surface display methods.