BLyS改组噬菌体文库的构建及初步筛选

从质粒pT7474-BLyS及人胎脑cDNA文库中分别扩增出BLyS和APRIL基因,用DNase I消化后,回收小于50 bp的片断,用于DNA改组。PCR产物与噬菌体载体pfUSE5连接后,电转E.coliER2738获得改组文库。构建的改组文库库容量为8.9×105。对文库进行初步的筛选,获得了一个受体结合活性降低的突变克隆。成功构建了BLyS改组噬菌体文库,为蛋白结构与功能之间关系的深入研究打下了基础。     

The remarkable flexibility of the human antibody repertoire; isolation of over one thousand different antibodies to a single protein, BLyS

It is well established that the humoral immune response can generate antibodies to many different antigens. The antibody diversity required to achieve this is believed to be substantial. However, the extent to which the immune repertoire can generate structural diversity against a single target antigen has never been addressed. Here, we have used phage display to demonstrate the extraordinary capacity of the human antibody repertoire. Over 1000 antibodies, all different in amino acid sequence, were generated to a single protein, B-lymphocyte stimulator (BLyS™ protein). This is a highly diverse panel of antibodies as exemplified by the extensive heavy and light chain germline usage: 42/49 functional heavy chain germlines and 19/33 V_λ and 13/35 V_κ light chain germlines were all represented in the panel of antibodies. Moreover, a high level of sequence diversity was observed in the V_H CDR3 domains of these antibodies, with 568 different amino acid sequences identified. Thus we have demonstrated that specific recognition of a single antigen can be achieved from many different VDJ combinations, illustrating the remarkable problem-solving ability of the human immune repertoire. When studied in a biochemical assay, around 500 (40%) of these antibodies inhibited the binding of BLyS to its receptors on B-cell lines. The most potent antibodies inhibited BLyS binding with sub-nanomolar IC₅₀ values and with sub-nanomolar affinities. Such antibodies provide excellent choices as candidates for the treatment of BLyS-associated autoimmune diseases.     

Directed evolution, phage display and combination of evolved mutants: a strategy to recover the neutralization properties of the scFv version of BCF2 a neutralizing monoclonal antibody specific to scorpion toxin Cn2

BCF2, a monoclonal antibody raised against scorpion toxin Cn2, is capable of neutralizing both, the toxin and the whole venom of the Mexican scorpion Centruroides noxius Hoffmann. The single chain antibody fragment (scFv) of BCF2 was constructed and expressed in Escherichia coli. Although its affinity for the Cn2 toxin was shown to be in the nanomolar range, it was non-neutralizing in vivo due to a low stability. In order to recover the neutralizing capacity, the scFv of BCF2 was evolved by error-prone PCR and the variants were panned by phage display. Seven improved mutants were isolated from three different libraries. One of these mutants, called G5 with one mutation at CDR1 and another at CDR2 of the light chain, showed an increased affinity to Cn2, as compared to the parental scFv. A second mutant, called B7 with a single change at framework 2 of heavy chain, also had a higher affinity. Mutants G5 and B7 were also improved in their stability but they were unable to neutralize the toxin. Finally, we constructed a variant containing the changes present in G5 and B7. The purpose of this construction was to combine the increments in affinity and stability borne by these mutants. The result was a triple mutant capable of neutralizing the Cn2 toxin. This variant showed the best affinity constant (KD=7.5x10(-11) M), as determined by surface plasmon resonance (BIAcore). The k(on) and k(off) were improved threefold and fivefold, respectively, leading to 15-fold affinity improvement. Functional stability determinations by ELISA in the presence of different concentrations of guanidinium hydrochloride (Gdn-HCl) revealed that the triple mutant is significantly more stable than the parental scFv. These results suggest that not only improving the affinity but also the stability of our scFv were important for recovering its neutralization capacity. These findings pave the way for the generation of recombinant neutralizing antisera against scorpion stings based on scFvs.     

一种特异性识别斑马鱼卵黄蛋白原的噬菌体展示单链抗体的可溶性表达方案

为了实现特异性识别斑马鱼卵黄蛋白原的噬菌体展示单链抗体的可溶性表达,将不能以可溶性蛋白形式表达的、只能以噬菌体展示形式特异性识别斑马鱼卵黄蛋白原的单链抗体F5的基因,克隆到pET 32a载体并转化入大肠杆菌ori DE3中。结果表明,通过诱导表达,可获得可溶性的并且仍特异性识别斑马鱼卵黄蛋白原的单链抗体32a-F5。噬菌体展示单链抗体不能可溶性表达是噬菌体展示技术应用中常见的问题,该方法提供了一种表达可溶性单链抗体的可行性方案。     

Multivalent scFv display of phagemid repertoires for the selection of carbohydrate-specific antibodies and its application to the Thomsen-Friedenreich antigen

The Thomsen-Friedenreich disaccharide (TF) is a promising target antigen for tumor immunotherapy, since it is almost exclusively expressed in carcinoma tissues. The TF-specific antibodies generated so far are IgMs of mouse origin with limited therapeutic potential. Phage-displayed scFv repertoires are an established source for recombinant antibodies; however, we were unable to identify scFvs binding to TF when applying libraries in the standard monovalent display format of phagemid systems. Here, we report on the successful selection of TF-specific antibody fragments using a multivalent scFv phagemid library format based on shortened linkers (one amino acid residue). The libraries were constructed from mice immunized with asialoglycophorin and selected using TF displayed on two different carrier molecules in combination with the proteolytically cleavable helper phage KM13. All isolated clones encoded the same framework genes and the same complementarity-determining regions. After affinity maturation only scFv with the founder sequence were selected from secondary repertoires. This indicates a very narrow sequence window for TF-specific antibodies. Investigating other linker-length formats revealed a clear inverse correlation between linker length and binding activity both as soluble proteins and displayed on phages. The highest affinity was obtained with the tetrameric format. The selected scFv was specific for TF on various carrier molecules and tumor cells and performed well in ELISA and immunohistochemistry. We postulate that scFv phagemid library formats with short linkers (i.e. multimeric scFvs) may, in general, be advantageous in selections for the generation of scFvs against carbohydrate epitopes or other epitopes associated with low intrinsic affinity per binding site), and expect that they will be superior in applications for diagnosis or therapy.     

Phage-derived fully human antibody scFv fragment directed against human vascular endothelial growth factor receptor 2 blocked its interaction with VEGF

Vascular endothelial growth factor receptor 2 (VEGFR‐2) plays a critical role in tumor angiogenesis. None therapeutic antibodies targeting VEGFR‐2 are available in clinical use. Herein, we describe the screening of a new single‐chain antibody fragment (scFv) targeting extracellular domain 3 of human VEGFR‐2 (kinase insert domain‐containing receptor [KDR]3) from Griffin phage display scFv library. A comprehensive sequence analysis was performed to assign the framework and complementary‐determining regions. The scFv exerted particular binding sites to KDR3 on molecular docking, and the binding affinity was further convinced by binding analysis both in quantitative ELISA and real‐time kinetic determination by biosensors (K_D = 40 nM). Finally, the scFv was revealed to inhibit VEGF‐stimulated proliferation of human umbilical vein endothelial cells (HUVECs; IC₅₀ = 5 nM) and to inhibit HUVEC migration significantly at 17 nM. Taken together, our results indicate that we have successfully isolated a scFv which differentially recognizes KDR3 and has potential clinical applications in the treatment of angiogenesis related diseases. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 28: 981–989, 2012     

Generation,characterization and preclinical studies of a human anti-L1CAM monoclonal antibody that cross-reacts with rodent L1CAM

L1 cell adhesion molecule (L1CAM) is aberrantly expressed in malignant tumors and plays important roles in tumor progression. Thus, L1CAM could serve as a therapeutic target and anti-L1CAM antibodies may have potential as anticancer agents. However, L1CAM is expressed in neural cells and the druggability of anti-L1AM antibody must be validated at the earliest stages of preclinical study. Here, we generated a human monoclonal antibody that is cross-reactive with mouse L1CAM and evaluated its pharmacokinetic properties and anti-tumor efficacy in rodent models. First, we selected an antibody (Ab4) that binds human and mouse L1CAM from the human naïve Fab library using phage display, then increased its affinity 45-fold through mutation of 3 residues in the complementarity-determining regions (CDRs) to generate Ab4M. Next, the affinity of Ab4M was increased 1.8-fold by yeast display of single-chain variable fragment containing randomly mutated light chain CDR3 to generate Ab417. The affinities (K_D) of Ab417 for human and mouse L1CAM were 0.24 nM and 79.16 pM, respectively. Ab417 specifically bound the Ig5 domain of L1CAM and did not exhibit off-target activity, but bound to the peripheral nerves embedded in normal human tissues as expected in immunohistochemical analysis. In a pharmacokinetics study, the mean half-life of Ab417 was 114.49 h when a single dose (10 mg/kg) was intravenously injected into SD rats. Ab417 significantly inhibited tumor growth in a human cholangiocarcinoma xenograft nude mouse model and did not induce any adverse effect in in vivo studies. Thus, Ab417 may have potential as an anticancer agent.     

Recombinant scFv antibodies against E protein and N protein of severe acute respiratory syndrome virus

Severe acute respiratory syndrome (SARS) brought aglobal outbreak in spring of 2003 [1–3], and more andmore attention has been paid on it when a new caseresurfaced in Singapore last September [4]. By the endof May in 2003, WHO reported a cumulative total of 8202infected cases with 725 deaths from 28 countries.Because of the high transmission and morality rate ofSARS, scientists in many countries have made theirefforts in studying SARS coronavirus (SARS-CoV)[5, 6]. Several genomes of…     

人源抗ICAM-1单链抗体的制备及其生物学活性鉴定

利用噬菌体展示技术筛选特异性人源抗ICAM-1单链抗体（Anti-human ICAM-1 scFv）并进行生物学活性鉴定。应用Tomlinson I+J噬菌体抗体库,以P1抗原肽为包被抗原,经过4轮“吸附-洗脱-扩增”进行亲和富集筛选。以PCR反应、ELISA抗原交叉反应和Dot blotting实验进行阳性克隆的鉴定。scFv经原核表达和分离纯化后,以Western blotting实验、竞争ELISA实验和细胞黏附抑制实验对其生物学活性进行初步鉴定。Tomlinson I+J噬菌体抗体库经4轮亲和富集筛选,利用ELISA方法成功筛出4株阳性克隆。通过PCR鉴定反应、ELISA抗原交叉反应和Dot blotting实验,最终获得了1株既能与P1抗原肽特异结合又能与人ICAM-1抗原特异结合的阳性克隆J-A1。对scFv进行原核表达和亲和层析后获得了高纯度的目的蛋白。竞争ELISA实验和细胞黏附抑制实验证实纯化的scFv具有良好的亲和活性和抗细胞黏附活性。文中成功利用噬菌体展示技术筛选到特异性人源抗ICAM-1 scFv,为进一步探索该抗体在炎症相关性疾病治疗中的应用奠定了基础。     

A series of Fas receptor agonist antibodies that demonstrate an inverse correlation between affinity and potency

Receptor agonism remains poorly understood at the molecular and mechanistic level. In this study, we identified a fully human anti-Fas antibody that could efficiently trigger apoptosis and therefore function as a potent agonist. Protein engineering and crystallography were used to mechanistically understand the agonistic activity of the antibody. The crystal structure of the complex was determined at 1.9 Å resolution and provided insights into epitope recognition and comparisons with the natural ligand FasL (Fas ligand). When we affinity-matured the agonist antibody, we observed that, surprisingly, the higher-affinity antibodies demonstrated a significant reduction, rather than an increase, in agonist activity at the Fas receptor. We propose and experimentally demonstrate a model to explain this non-intuitive impact of affinity on agonist antibody signalling and explore the implications for the discovery of therapeutic agonists in general.     

Construction of a large synthetic human scFv library with six diversified CDRs and high functional diversity

Antibody phage display provides a powerful and efficient tool for the discovery and development of monoclonal antibodies for therapeutic and other applications. Antibody clones from synthetic libraries with optimized design features have several distinct advantages that include high stability, high levels of expression, and ease of downstream optimization and engineering. In this study, a fully synthetic human scFv library with six diversified CDRs was constructed by polymerase chain reaction assembly of overlapping oligonucleotides. In order to maximize the functional diversity of the library, a β-lactamase selection strategy was employed in which the assembled scFv gene repertoire was fused to the 5′-end of the β-lactamase gene, and in-frame scFv clones were enriched by carbenicillin selection. A final library with an estimated total diversity of 7.6 × 10⁹, greater than 70% functional diversity, and diversification of all six CDRs was obtained after insertion of fully randomized CDR-H3 sequences into this proofread repertoire. The performance of the library was validated using a number of target antigens, against which multiple unique scFv sequences with dissociation constants in the nanomolar range were isolated.     

Isolation and characterization of a novel scFv antibody fragments specific for Hsp70 as a tumor biomarker

Many studies have shown that more than 50% of tumors express heat shock protein 70 kDa (Hsp70) at the plasma membrane surface while not seen in normal cells, therefore it is a promising therapeutic target in human cancers. Hence, we used phage display technology to produce a single-chain fragment variable (scFv) antibody against human Hsp70. For this, a target peptide from human Hsp70 was designed using bioinformatics studies and was chemically synthesized. Then, the selection was performed using four rounds of biopanning with a stepwise decreased amount of the target peptide. Fourteen positive scFv clones were selected using monoclonal phage enzyme-linked immunosorbent assay screening, which was further characterized by means of the polymerase chain reaction and DNA sequencing. Among them, the G6 clone was selected to express scFv into the Escherichia coli. Expression and purification of the scFv shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and confirmed by Western blot analysis. In silico analysis confirmed specific binding of the scFv to Hsp70 in CDR regions. The specificity of the scFv measured by surface plasmon resonance and immunofluorescence of the A549 human lung carcinoma cell line confirmed the in vitro function of the scFv. Based upon these findings, we propose a novel anti-human Hsp70 scFv as potential immunotherapy agents that may be translated into preclinical/clinical applications.     

A rapid novel strategy for screening of antibody phage libraries for production,purification, and functional characterization of amber stop codons containing single-chain antibody fragments

Phage display antibody (PDA) libraries, allows the rapid isolation and characterization of high specificity monoclonal antibodies for therapeutic and diagnostic applications. However, selection of positive binding clones from synthetic and semi-synthetic libraries has an inherent bias towards clones containing randomly generated amber stop codons, complicating the identification of high affinity binding antibodies. We screened Tomlinson I and J library against receptor binding domain (RBD) of SARS CoV2, eight clones which showed positive binding in phage ELISA, contained one or more amber stop codons in their single-chain antibody fragment (scFv) gene sequences. The presence of amber stop codons within the antibody sequence causes the premature termination of soluble form of scFv expression in nonsuppressor Escherichia coli strain. In the present study, we have used a novel strategy that allows soluble expression of scFvs having amber stop codon in their gene sequences (without phage PIII protein fusion), in the suppressor strain. This strategy of introduction of Ochre (TAA) codon at the junction of scFv and PIII gene, speeds up the initial screening process which is critical for selecting the right scFvs for further studies. Present strategy leads to the identification of a scFv, B8 that binds specifically with nanomolar affinity toward SARS CoV 2 RBD, which otherwise lost in terms of traditional methodology.     

人源抗EPO基因工程抗体重链可变区的克隆和鉴定

利用噬菌体抗体显示技术筛选 EPO的人源抗体 ,得到了抗 EPO的人源抗体的重链基因。此抗体基因在噬菌体表面呈现的抗体分子具有良好的抗体活性和特异性。为制备完整的、具有更高亲和力的抗体打下了基础。     

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.     

Molecular basis of in vitro affinity maturation and functional evolution of a neutralizing anti-human GM-CSF antibody

X-ray structure analysis of 4 antibody Fab fragments, each in complex with human granulocyte macrophage colony stimulating factor (GM-CSF), was performed to investigate the changes at the protein-protein binding interface during the course of in vitro affinity maturation by phage display selection. The parental antibody MOR03929 was compared to its derivatives MOR04252 (CDR-H2 optimized), MOR04302 (CDR-L3 optimized) and MOR04357 (CDR-H2 and CDR-L3 optimized). All antibodies bind to a conformational epitope that can be divided into 3 sub-epitopes. Specifically, MOR04357 binds to a region close to the GM-CSF N-terminus (residues 11–24), a short second sub-epitope (residues 83–89) and a third at the C-terminus (residues 112–123). Modifications introduced during affinity maturation in CDR-H2 and CDR-L3 led to the establishment of additional hydrogen bonds and van der Waals contacts, respectively, providing a rationale for the observed improvement in binding affinity and neutralization potency. Once GM-CSF is complexed to the antibodies, modeling predicts a sterical clash with GM-CSF binding to GM-CSF receptor α and β chain. This predicted mutually exclusive binding was confirmed by a GM-CSF receptor α chain ligand binding inhibition assay. Finally, high throughput sequencing of clones obtained after affinity maturation phage display pannings revealed highly selected consensus sequences for CDR-H2 as well for CDR-L3, which are in accordance with the sequence of the highest affinity antibody MOR04357. The resolved crystal structures highlight the criticality of these strongly selected residues for high affinity interaction with GM-CSF.     

Selection and characterization of a human neutralizing antibody to human fibroblast growth factor-2

Compelling evidences suggest that fibroblast growth factor-2 (FGF-2) plays important roles in tumor growth, angiogenesis and metastasis. Molecules blocking the FGF-2 signaling have been proposed as anticancer agents. Through screening of a human scFv phage display library, we have isolated several human single-chain Fv fragments (scFvs) that bind to human FGF-2. After expression and purification in bacteria, one scFv, named 1A2, binds to FGF-2 with a high affinity and specificity, and completes with FGF-2 binding to its receptor. This 1A2 scFv was then cloned into the pIgG1 vector and expressed in 293T cells. The purified hIgG1-1A2 antibody showed a high binding affinity of 8 × 10⁻⁹ M to rhFGF-2. In a set of vitro assays, it inhibited various biological activities of FGF-2 such as the proliferation, migration and tube formation of human umbilical vein endothelial cells. More importantly, hIgG1-1A2 antibody also efficiently blocked the growth while inducing apoptosis of glioma cells. For the first time, we generated a human anti-FGF-2 antibody with proven in vitro anti-tumor activity. It may therefore present a new therapeutic candidate for the treatment of cancers that are dependent on FGF-2 signaling for growth and survival.     

Interference of HCV replication by cell penetrable human monoclonal scFv specific to NS5B polymerase

A new class of hepatitis C virus (HCV)-targeted therapeutics that is safe, broadly effective and can cope with virus mutations is needed. The HCV''s NS5B is highly conserved and different from human protein, and thus it is an attractive target for anti-HCV therapeutics development. In this study, NS5B bound-phage clones selected from a human single chain variable antibody fragment (scFv) phage display library were used to transform appropriate E. coli bacteria. Two scFv inhibiting HCV polymerase activity were selected. The scFvs were linked to a cell penetrating peptide to make cell penetrable scFvs. The transbodies reduced the HCV RNA and infectious virus particles released into the culture medium and inside hepatic cells transfected with a heterologous HCV replicon. They also rescued the innate immune response of the transfected cells. Phage mimotope search and homology modeling/molecular docking revealed the NS5B subdomains and residues bound by the scFvs. The scFv mimotopes matched residues of the NS5B, which are important for nucleolin binding during HCV replication, as well as residues that interconnect the fingers and thumb domains for forming a polymerase active groove. Both scFvs docked on several residues at the thumb armadillo-like fold that could be the polymerase interactive sites of other viral/host proteins for the formation of the replication complex and replication initiation. In conclusion, human transbodies that inhibited HCV RdRp activity and HCV replication and restored the host innate immune response were produced. They are potentially future interferon-free anti-HCV candidates, particularly in combination with other cognates that are specific to NS5B epitopes and other HCV enzymes.