Construction of a bispecific single chain antibody for recruitment of cytotoxic T cells to the tumour stroma associated antigen fibroblast activation protein.

Bispecific antibodies directed against tumour associated antigens and the T cell receptor component CD3 for recruitment and tumour targeted activation of T cells represent a novel class of highly specific immunotherapeutics for cancer. We here describe the construction, eukaryotic expression and in vitro functional activity of a new T cell activating bispecific reagent, termed TTS for T cell targeting to the tumour stroma, comprised of a CD3 specific single chain antibody derivative (scFv) fused C-terminally to a 'fibroblast activation protein' (FAP) specific scFv that targets cytotoxic effector cells to FAP. FAP is highly expressed in the vascularised tumoural stroma of most lung, breast and colon carcinomas. It thus represents a selectively tumour associated, yet common marker of many solid tumours and is a potentially ideal candidate marker for efficient targeting of immune effector cells.     

Specificity tuning of antibody fragments to neutralize two human chemokines with a single agent

Chemokines are important mediators of the immune response that are responsible for the trafficking of immune cells between lymphoid organs and migration towards sites of inflammation. Using phage display selection and a functional screening approach, we have isolated a panel of single-chain fragment variable (scFv) capable of neutralizing the activity of the human chemokine CXCL10 (hCXCL10). One of the isolated scFv was weakly cross-reactive against another human chemokine CXCL9, but was unable to block its biological activity. We diversified the complementarity determining region 3 (CDR3) of the light chain variable domain (VL) of this scFv and combined phage display with high throughput antibody array screening to identify variants capable of neutralizing both chemokines. Using this approach it is therefore possible to engineer pan-specific antibodies that could prove very useful to antagonize redundant signaling pathways such as the chemokine signaling network.Key words: cross-reactive antibody, antibody arrays, chemotaxis, multiple targeting, affinity maturation, phage display     

Short hairpin RNA targeting of fibroblast activation protein inhibits tumor growth and improves the tumor microenvironment in a mouse model

Fibroblast activation protein (FAP) is a specific serine protease expressed in tumor stroma proven to be a stimulatory factor in the progression of some cancers. The purpose of this study was to investigate the effects of FAP knockdown on tumor growth and the tumor microenvironment. Mice bearing 4T1 subcutaneous tumors were treated with liposome-shRNA complexes targeting FAP. Tumor volumes and weights were monitored, and FAP, collagen, microvessel density (MVD), and apoptosis were measured. Our studies showed that shRNA targeting of FAP in murine breast cancer reduces FAP expression, inhibits tumor growth, promotes collagen accumulation (38%), and suppresses angiogenesis (71.7%), as well as promoting apoptosis (by threefold). We suggest that FAP plays a role in tumor growth and in altering the tumor microenvironment. Targeting FAP may therefore represent a supplementary therapy for breast cancer. [BMB Reports 2013; 46(5): 252-257]     

An anti-leukemic single chain Fv antibody selected from a synthetic human phage antibody library

The display of human antibody repertoire on the cell surface of the filamentous bacteriophage has offered a novel strategy for selecting antibodies to a diverse range of purified targets. However, the selection of antibodies with biological functions has not yet been fully investigated. To select phage antibodies with therapeutic potential, a synthetic human single chain Fv (scFv) phage antibody library was panned on whole premyelocytic leukemia cell line (HL60). Phages binding to common receptors and undesirable phages were subtracted by incubating the library with human glioma cells. High affinity binding phages to HL60 cells were enriched by fluorescence-activated cell sorting. After the 6th round of selection, 50% of the selected phage antibodies showed significant binding to HL60 cells, whereas none of the analyzed phage antibodies bound to human pre-B cells (Nalm-6). In addition to binding, one scFv antibody inhibited HL60 cell proliferation by 90% compared to irrelevant scFv antibodies. Taken together the data demonstrate that specific scFv antibodies with biological functions can be isolated by using whole cells as affinity matrix.     

Specificity tuning of antibody fragments to neutralize two human chemokines with a single agent

Chemokines are important mediators of the immune response that are responsible for the trafficking of immune cells between lymphoid organs and migration towards sites of inflammation. Using phage display selection and a functional screening approach, we have isolated a panel of single-chain fragment variable (scFv) capable of neutralizing the activity of the human chemokine CXCL10 (hCXCL10). One of the isolated scFv was weakly cross-reactive against another human chemokine CXCL9, but was unable to block its biological activity. We diversified the complementarity determining region 3 (CDR3) of the light chain variable domain (VL) of this scFv and combined phage display with high throughput antibody array screening to identify variants capable of neutralizing both chemokines. Using this approach it is therefore possible to engineer pan-specific antibodies that could prove very useful to antagonize redundant signaling pathways such as the chemokine signaling network.     

Breast carcinoma specific antibody selection combining phage display and immunomagnetic cell sorting

To discover new specific antibodies directed against disseminated carcinoma cells in breast cancer patients, a strategy combining single-chain variable fragment (scFv) phage display and immunomagnetic cell sorting was developed. A selection model, in which ErbB2-expressing breast carcinoma SKBR3 cells are spiked into a 50-fold excess of lymphocytes, was setup. Selection conditions, optimized using the previously characterized ErbB2-specific F5 phage scFv, led to an outstanding phage enrichment yield of 25,000 after only one round. This protocol applied to human nai ve and synthetic phage display antibody libraries led to the selection, in only two rounds, of individual scFv clones (43 out of 46 tested) specific for non-epithelial carcinoma antigens expressed on SKBR3 cells. This strategy is fully applicable to metastatic cells in effusions from breast carcinoma patients and shall lead to the discovery of immunotools crucial for novel diagnostic and therapeutic approaches.     

Specificity grafting of human antibody frameworks selected from a phage display library: generation of a highly stable humanized anti-CD22 single-chain Fv fragment

A prerequisite for the enrichment of antibodies screened from phage display libraries is their stable expression on a phage during multiple selection rounds. Thus, if stringent panning procedures are employed, selection is simultaneously driven by antigen affinity, stability and solubility. To take advantage of robust pre-selected scaffolds of such molecules, we grafted single-chain Fv (scFv) antibodies, previously isolated from a human phage display library after multiple rounds of in vitro panning on tumor cells, with the specificity of the clinically established murine monoclonal anti-CD22 antibody RFB4. We show that a panel of grafted scFvs retained the specificity of the murine monoclonal antibody, bound to the target antigen with high affinity (6.4-9.6 nM), and exhibited exceptional biophysical stability with retention of 89-93% of the initial binding activity after 6 days of incubation in human serum at 37 degrees C. Selection of stable human scaffolds with high sequence identity to both the human germline and the rodent frameworks required only a small number of murine residues to be retained within the human frameworks in order to maintain the structural integrity of the antigen binding site. We expect this approach may be applicable for the rapid generation of highly stable humanized antibodies with low immunogenic potential.     

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}     

Combining phage display and screening of cDNA expression libraries: a new approach for identifying the target antigen of an scFv preselected by phage display

A potential method for identifying new tumor-specific antibody structures as well as tumor-associated antigens is by selecting scFv phage libraries on tumor cells. This phage display technique involves multiple rounds of phage binding to target cells, washing to remove non-specific phage and elution to retrieve specific binding phage. Although the binding properties of an isolated tumor-specific scFv can be evaluated by ELISA, FACS and immunohistochemistry, it still remains a challenge to define the corresponding antigen. Here, we provide evidence that the target antigen of a given scFv displayed on phages can be detected in an immobilized lambda phage cDNA expression library containing thousands of irrelevant clones. The library contained CD30-negative breast-cancer specific cDNA as well as human CD30 receptor cDNA. The interaction of anti-CD30 scFv phages and their target antigen after blotting onto nitrocellulose filters was documented under defined conditions. Screening of different ratios between CD30 receptor and breast cancer specific clones (1:1 and 1:200) revealed that the CD30 antigen could be detected by anti-CD30 scFv phages using at least 5x10(12) plaque forming units of filamentous phages per blot. These investigations demonstrate that it is possible to detect the target antigen of a preselected scFv displayed on filamentous phages in lambda phage cDNA expression libraries.     

Selection of tumor-specific internalizing human antibodies from phage libraries

Antibody internalization into the cell is required for many targeted therapeutics, such as immunotoxins, immunoliposomes, antibody-drug conjugates and for targeted delivery of genes or viral DNA into cells. To generate directly tumor-specific internalizing antibodies, a non-immune single chain Fv (scFv) phage antibody library was selected on the breast tumor cell line SKBR3. Internalized phage were recovered from within the cell and used for the next round of selection. After three rounds of selection, 40 % of clones analyzed bound SKBR3 and other tumor cells but did not bind normal human cells. Of the internalizing scFv identified, two (F5 and C1) were identified as binding to ErbB2, and one (H7) to the transferrin receptor. Both F5 and H7 scFv were efficiently endocytosed into SKBR3 cells, both as phage antibodies and as native monomeric scFv. Both antibodies were able to induce additional functional effects besides triggering endocytosis: F5 scFv induces downstream signaling through the ErbB2 receptor and H7 prevents transferrin binding to the transferrin receptor and inhibits cell growth. The results demonstrate the feasibility of selecting internalizing receptor-specific antibodies directly from phage libraries by panning on cells. Such antibodies can be used to target a variety of molecules into the cell to achieve a therapeutic effect. Furthermore, in some instances endocytosis serves as a surrogate marker for other therapeutic biologic effects, such as growth inhibition. Thus, a subset of selected antibodies will have a direct therapeutic effect.     

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.     

Anti-oligomeric Abeta single-chain variable domain antibody blocks Abeta-induced toxicity against human neuroblastoma cells

The Amyloid-β (Aβ) peptide is a major component of the amyloid plaques associated with Alzheimer's disease (AD). Recent studies suggest that the most toxic forms of Aβ are small, soluble oligomeric aggregates. Here, we report the isolation and characterization of a single-chain variable domain (scFv) antibody isolated against oligomeric Aβ using a protocol developed in our laboratory that combines phage display technology and atomic force microscopy (AFM). Starting with a randomized, single framework phage display library, after three rounds of selection against oligomeric Aβ, we identified an scFv that bound oligomeric Aβ specifically, but not monomeric or fibrillar forms. The anti-oligomeric scFv inhibits Aβ aggregation and toxicity, and reduces the toxicity of preformed oligomeric Aβ towards human neuroblastoma cells. When used to probe samples of human brain tissue, the scFv reacted with AD tissue but not a healthy control or Parkinson's disease brain samples. The anti-oligomeric Aβ scFv therefore has potential therapeutic and diagnostic applications in specifically targeting or identifying the toxic morphologies of Aβ in AD brains.     

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。     

Phage versus phagemid libraries for generation of human monoclonal antibodies

Non-immune (na?ve) phage antibody libraries have become an important source of antibodies for reagent, diagnostic, and therapeutic use. To date, reported na?ve libraries have been constructed in phagemid vectors as fusions to pIII, yielding primarily single copy (monovalent) display of antibody fragments. For this work, we subcloned the single chain Fv (scFv) gene repertoire from a na?ve phagemid antibody library into a true phage vector to create a multivalently displayed scFv phage library. Compared to monovalently displayed scFv, multivalent phage display resulted in improved efficiency of display as well as antibody selection. A greater number of antibodies were obtained and at earlier rounds of selection. Such increased efficiency allows the screening for binding antibodies after a single round of selection, greatly facilitating automation. Expression levels of antigen-binding scFv were also higher than from the phagemid library. In contrast, the affinities of scFv from the phage library were lower than from the phagemid library. This could be overcome by utilizing the scFv in a multivalent format, by affinity maturation, or by converting the library to monovalent display after the first round of selection.     

Production and validation of the pharmacokinetics of a single-chain Fv fragment of the MGR6 antibody for targeting of tumors expressing HER-2

The HER-2 antigen, which is overexpressed in many breast carcinomas, is an ideal target for monoclonal antibodies due to its low expression in normal tissue and its homogeneous distribution in the tumor mass. We have developed and characterized the murine MAb MGR6 against HER-2, which is able to inhibit proliferation of tumor cells overexpressing HER-2. On the basis of these preclinical results, phase I studies in breast carcinoma patients were conducted and radiolocalization data indicated an antibody half life which directly paralleled that of other whole antibodies and thus resulting in a limited in vivo diagnostic capacity. To obtain a smaller reagent with possibly improved in vivo properties, a single chain variable fragment (scFv) of the original MGR6-producing hybridoma was generated by phage display technology. Biologically active MGR6 scFv was purified rapidly and at high yield by metal affinity chromatography. Competition FACS and ELISA analyses identified an epitope on the HER-2 extracellular domain that was shared by the scFv and the parental MAb. BIAcore analysis indicated a K_off of 9.3 × 10⁻⁴ s⁻¹, similar to that of the intact MGR6 MAb. Distribution and elimination half-lives of MGR6 scFv, calculated from in vivo preclinical evaluations, were much faster (13 min and 6.2 h, respectively) than previously published results for the intact MAb (mean t1/2β of 46 h). This represents a theoretical improvement in pharmacokinetics with respect to the parental murine MAb and points to the potential for utilizing this fragment in redirecting therapeutic agents, such as radioisotopes, to different human carcinomas overexpressing HER-2. Received: 10 August 2000 / Accepted: 19 October 2000     

Therapeutic efficacy of anti-ErbB2 immunoliposomes targeted by a phage antibody selected for cellular endocytosis

Many targeted cancer therapies require endocytosis of the targeting molecule and delivery of the therapeutic agent to the interior of the tumor cell. To generate single chain Fv (scFv) antibodies capable of triggering receptor-mediated endocytosis, we previously developed a method to directly select phage antibodies for internalization by recovering infectious phage from the cytoplasm of the target cell. Using this methodology, we reported the selection of a panel of scFv that were internalized into breast cancer cells from a nonimmune phage library. For this work, an immunotherapeutic was generated from one of these scFv (F5), which bound to ErbB2 (HER2/neu). The F5 scFv was reengineered with a C-terminal cysteine, expressed at high levels in Escherichia coli, and coupled to sterically stabilized liposomes. F5 anti-ErbB2 immunoliposomes were immunoreactive as determined by surface plasmon resonance (SPR) and were avidly internalized by ErbB2-expressing tumor cell lines in proportion to the levels of ErbB2 expression. F5-scFv targeted liposomes containing doxorubicin had antitumor activity and produced significant reduction in tumor size in xenografted mice compared to nontargeted liposomes containing doxorubicin. This strategy should be applicable to generate immunotherapeutics for other malignancies by selecting phage antibodies for internalization into other tumor types and using the scFv to target liposomes or other nanoparticles.     

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     

The rescue by phage display of human fabs to gp120 HIV-1 glycoprotein using EBV transformed lymphocytes

Human hybridomas secreting monoclonal antibodies in a stable manner are difficult to develop. The main difficulties are the restricted techniques for B-cell immortalization, the low number of sensitized B cells in peripheral blood, and the impossibility, for ethical reasons, to immunize humans with most antigens. Phage display has proved to be a powerful method for the generation of recombinant antibody fragments. This technology relies on the construction of recombinant Fab or scFv libraries and their display on phage M13. In order to rescue unstable B-cell clones secreting human antibodies we set up a method for the selection by phage display of human IgG fragments from Epstein-Barr virus (EBV)-transformed clones and applied it to the selection by phage display of Fabs directed against HIV-1 gp120, using a seropositive blood sample. The approach combines B-cell transformation by EBV of peripheral blood lymphocytes from a seropositive donor, preselection of specific IgG anti-gp120 producing clones, and the construction of a targeted human antibody library. In this library the percentage of heavy and light chain coding sequences expressed in Escherichia coli, amplified by a set of specific 5′ primers for different antibody germ lines, was similar to that observed with the original untransformed B-cell sample. One round of panning was sufficient for the rescue of three Fabs specific for HIV-1 gp120 protein, which proves the efficiency of this technique.     

Emerging roles of the tumor-associated stroma in promoting tumor metastasis

The stroma in human carcinomas consists of extracellular matrix and various types of non-carcinoma cells, mainly leukocytes, endothelial cells, fibroblasts, myofibroblasts and bone marrow-derived progenitors. The tumor-associated stroma actively supports tumor growth by stimulating neo-angiogenesis, as well as proliferation and invasion of apposed carcinoma cells. It has long been accepted that alterations within carcinoma cells mediate metastasis in a cell-autonomous fashion. Recent studies have, however, suggested an additional notion that cancer cells instigate local and systemic changes in the tumor microenvironment and contribute to niche formation for metastasis. Research, aiming to establish the roles of the tumor-associated stroma in facilitating the spread of carcinoma cells into distant organs, has provided an abundance of data and greater knowledge of the biology of metastatic carcinoma cells and associated stromal cells. This has stimulated further advances in the development of novel therapeutic approaches targeting tumor metastasis.     

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.