Application of phage-displayed single chain antibodies in western blot

A phage display single chain fragment variable library constructed on pⅢ protein of M13 filamentous phage was screened using B-lymphocyte stimulator and FP248 as selective molecules. After four rounds of panning, there was a remarkable enrichment in the titer of bound phages. Twenty phage clones were selected from the last round and screened by means of phage-ELISA. With the antibody phages as primary antibodies in Western blot, we developed a method for detecting the specific antigen. The dilutions of antibody phages depend on the affinity between antibody-displayed phage particles and antigens.     

Panning of a phage VH library using nitrocellulose membranes: application to selection of a human VH library

We have established a method for selecting binding phages from a phage immunoglobulin heavy chain variable region (VH) library by panning with nitrocellulose membranes (membrane panning). To evaluate the concentrating ability of membrane panning for binding phages, a phage VH library containing clones that bind to hen egg white lysozyme (HEL) was used for panning against HEL. The efficiency of our method was as high as that of panning with magnetic beads. In addition, we performed membrane panning against target proteins and isolated the binding phages. The human VH genes of these phages were cloned and expressed as VH-bacterial alkaline phosphatase (PhoA) conjugates (VH-PhoA) in Escherichia coli. The dose-dependent binding of VH-PhoA to target proteins was confirmed by dot blotting. When applied to disease-associated antibodies, these methods will likely benefit clinical research. In addition, these techniques may be applicable to systematic analysis in proteome studies.     

New avenues for phage-display library to produce a Cryptococcus-specific anti-idiotypic antibody of HM-1 killer toxin

Existing antifungal drugs are notable for their inability to act rapidly, as well as their toxicity and limited spectrum. The identification of fungal-specific genes and virulence factors would provide targets for new and influential drugs. The display of repertories of antibody fragments on the surface of filamentous phage offers a new way to produce immunoreagents as defined specificities. Here we report the selection of Cryptococcus-specific targets by using phage-display panning from a cDNA library, where bactericidal antibodies have been developed against conserved surface-exposed antigens. A single-chain variable fragment (scFv) phage library was constructed from splenocyte of an immunized mouse by idiotypic vaccination with HM-1 killer toxin (HM-1) neutralizing monoclonal antibody (nmAb-KT) that was used for selection against Cryptococcus neoformans membrane fraction (CnMF). Key elements were the selection against antigen (nmAb-KT and CnMF) and the release of bound phages using competitive panning elution with CnMF at neutral pH condition. Isolated scFvs react specifically with C. neoformans and some other pathogenic and non-pathogenic fungal strain's cell wall receptors by exerting strong antifungal activity in vitro. A high affinity clone, designated M1 was selected for detailed characterization and tested anti-cryptococcal activity with IC(50) values at 5.33 × 10(-7) to 5.56 × 10(-7) M against C. neoformans. The method described here is a new technique for the isolation of cell membrane specific immunoreactive phages in the form of scFv using CnMF that contained cell membrane associated proteins.     

轮换淘选法筛选凝血酶特异的噬菌体抗体

以抗原为选择剂,通过淘选可以从噬菌体抗体库中获得特异的单链抗体克隆。采用液相一固相轮换淘选的方法,从鼠源噬菌体抗体库中淘选出与凝血酶特异结合的单链抗体。首先,用光敏生物素将凝血酶生物素化,然后用链亲和素磁珠法淘选与凝血酶特异结合的重组噬菌体。噬菌体扩增后使用酶标板进行第2轮淘选,以除去上一轮中非特异结合的重组噬菌体。经4轮轮换淘选,最后从23个单克隆噬菌体抗体中分离出4个凝血酶特异的噬菌体抗体。     

Two-dimensional electrophoresis/phage panning (2D-PP): a novel technology for direct antibody selection on 2-D blots

We describe a novel method, two-dimensional electrophoresis/phage panning (2D-PP), for the generation of antibodies against proteins in crude biochemical samples, such as cellular membrane fractions. These sources have traditionally presented problems as to the development of antibodies by conventional techniques. 2D-PP involves two-dimensional resolution of proteins, blotting of the proteins onto a nitrocellulose membrane, and screening of a phage antibody library and isolation of corresponding antibodies. By 2D-PP with detergent-insoluble "lipid rafts" as a target protein complex, we obtained specific phage pools against eight antigen spots (from a total of 39 spots). These antibodies were functional in Western blotting, enzyme-linked immunosorbent assaying (ELISA), and immunoscreening of a cDNA expression library. Propagation of anti-nitrocellulose phages was the major problem in 2D-PP, but was overcome by the use of the soluble anti-nitrocellulose antibody fragment. 2D-PP constitutes a key tool for functional analysis of proteins in complex fractions.     

基于细胞的抗单增李斯特菌单域重链抗体的筛选及鉴定

【目的】获得针对单增李斯特菌的特异性单域重链抗体,并对筛选过程中特异性克隆的富集规律进行分析,为筛选具有种属特异性的噬菌体展示抗体提供参考。【方法】采用固相筛选技术,以热灭活的单增李斯特菌菌体为抗原,通过四轮常规筛选和一轮消减筛选,从驼源天然噬菌体展示文库中筛选针对单增李斯特菌的单域重链抗体。采用Phage-ELISA法,对后四轮筛选洗脱物中随机挑选的噬菌体进行鉴定,阳性克隆进行基因测序及结合特异性分析。通过多序列比对分析将获得的基因序列进行分组和统计。【结果】成功筛选到2株单增李斯特菌特异性的单域重链抗体。【结论】在优化的筛选条件下,基于全细胞的筛选方法能够获得特异性识别单增李斯特菌的单域重链抗体,消减筛选对于去除非特异性克隆是有效的和必要的。     

Isolation and characterization of phage-displayed single chain antibodies recognizing nonreducing terminal mannose residues. 1. A new strategy for generation of anti-carbohydrate antibodies

Phage-display technology is probably the best available strategy to produce antibodies directed against various carbohydrate moieties since conventional hybridoma technologies have yielded mostly low-affinity antibodies against a limited number of carbohydrate antigens. Because of difficulties in immobilization of carbohydrate antigens onto plastic plates, however, the same procedures used for protein antigens cannot be readily applied. We adapted phage-display technology to generate human single chain antibodies (scFvs) using neoglycolipids as antigens. This study describes the isolation and characterization of phage-displayed antibodies (phage Abs) that recognized nonreducing terminal mannose residues. We first constructed a phage Ab library with a large repertoire using CDR shuffling and VL/VH shuffling methods with unique vector constructs. The library was subjected to four rounds of panning against neoglycolipids synthesized from mannotriose (Man3) and dipalmitoylphosphatidylethanolamine (DPPE) by reductive amination. Of 672 clones screened by enzyme-linked immunosorbent assay (ELISA) using Man3-DPPE as an antigen, 25 positive clones encoding scFvs with unique amino acid sequences were isolated as candidates for phage Abs against Man3 residues. TLC-overlay assays and surface plasmon resonance analyses revealed that selected phage Abs bound to neoglycolipids bearing mannose residues at nonreducing termini. In addition, binding of the phage Ab to RNase B carrying high mannose type oligosaccharides but not to fetuin carrying complex type and O-linked oligosaccharides was confirmed. Furthermore, first round characterization of scFvs expressed from respective phages indicated good affinity and specificity for nonreducing terminal mannose residues. These results demonstrated the usefulness of this strategy in constructing human scFv against various carbohydrate antigens. Further studies on the purification and characterization of these scFvs are presented in an accompanying paper in this issue.     

Mapping of linear epitopes recognized by monoclonal antibodies with gene-fragment phage display libraries

Epitope mapping with mono- or polyclonal antibodies has so far been done either by dissecting the antigens into overlapping polypeptides in the form of recombinantly expressed fusion proteins, or by synthesizing overlapping short peptides, or by a combination of both methods. Here, we report an alternative method which involves the generation of random gene fragments of approximately 50–200 by in length and cloning these into the 5 terminus of the protein III gene of fd phages. Selection for phages that bind a given monoclonal antibody and sequencing the DNA inserts of immunopositive phages yields derived amino acid sequences containing the desired epitope. A monoclonal antibody (mAb 215) directed against the largest subunit of Drosophila RNA polymerase II (RPB215) was used to map the corresponding epitope in a fUSE5 phage display library made of random DNA fragments from plasmid DNA containing the entire gene. After a single round of panning with this phage library, bacterial colonies were obtained which produced fd phages displaying the mAb 215 epitope. Sequencing of single-stranded phage DNA from a number of positive colonies (recognized by the antibody on colony immunoblots) resulted in overlapping sequences all containing the 15mer epitope determined by mapping with synthetic peptides. Similarly, we have localized the epitopes recognized by a mouse monoclonal antibody directed against the human p53 protein, and by a mouse monoclonal antibody directed against the human cytokeratin 19 protein. Identification of positive colonies after the panning procedure depends on the detection system used (colony immunoblot or ELISA) and there appear to be some restrictions to the use of linker-encoded amino acids for optimal presentation of epitopes. A comparison with epitope mapping by synthetic peptides shows that the phage display method allows one to map linear epitopes down to a size only slightly larger than the true epitope. In general, our phage display method is faster, easier, and cheaper than the construction of overlapping fusion proteins or the use of synthetic peptides, especially in cases where the antigen is a large polypeptide such as the 215 kDa subunit of eukaryotic RNA polymerase II.     

Novel Atomic Force Microscopy Based Biopanning for Isolation of Morphology Specific Reagents against TDP-43 Variants in Amyotrophic Lateral Sclerosis

Because protein variants play critical roles in many diseases including TDP-43 in Amyotrophic Lateral Sclerosis (ALS), alpha-synuclein in Parkinson’s disease and beta-amyloid and tau in Alzheimer’s disease, it is critically important to develop morphology specific reagents that can selectively target these disease-specific protein variants to study the role of these variants in disease pathology and for potential diagnostic and therapeutic applications. We have developed novel atomic force microscopy (AFM) based biopanning techniques that enable isolation of reagents that selectively recognize disease-specific protein variants. There are two key phases involved in the process, the negative and positive panning phases. During the negative panning phase, phages that are reactive to off-target antigens are eliminated through multiple rounds of subtractive panning utilizing a series of carefully selected off-target antigens. A key feature in the negative panning phase is utilizing AFM imaging to monitor the process and confirm that all undesired phage particles are removed. For the positive panning phase, the target antigen of interest is fixed on a mica surface and bound phages are eluted and screened to identify phages that selectively bind the target antigen. The target protein variant does not need to be purified providing the appropriate negative panning controls have been used. Even target protein variants that are only present at very low concentrations in complex biological material can be utilized in the positive panning step. Through application of this technology, we acquired antibodies to protein variants of TDP-43 that are selectively found in human ALS brain tissue. We expect that this protocol should be applicable to generating reagents that selectively bind protein variants present in a wide variety of different biological processes and diseases.     

Effective use of nitrocellulose-blotted antigens for phage display monoclonal antibody selection

The combinatorial phage display library approach to antibody repertoire cloning offers a powerful tool for the isolation of specific antibodies to defined target antigens. Panning strategy is often a very critical point for selecting antibody displayed on the surface of bacteriophages. Most selection strategies described to date have relied on the availability of purified and often recombinant antigen, providing the possibility to perform selections on a well defined antigen source. However, when the antigen is difficult to purify by means of laborious and time-consuming chromatography procedures, panning of phage antibody libraries has to be performed on complex antigen sources such as cell surfaces or tissue sections, or even by in vivo selection methods. This provides a series of technical and experimental complications. In the present work, we successfully generated a mouse monoclonal antibody fragment from a phage display library directed against protein E7 of HPV18 avoiding antigen purification as for immunizing mice as for antibody library selection. Our work demonstrates the feasibility of phage antibody selections on antigens transferred to a nitrocellulose membrane as solid support, using one-dimensional polyacrylamide gel electrophoresis system as the only practice to separate a given antigen present in bacterial crude cell lysate.     

人源单克隆抗人免疫缺陷病毒1型抗体Fab段基因的获得

应用噬苏体抗体库技术有效地筛选出了多株抗ＨＩＶ－１人源单克隆抗体。以逆转录聚合酶链反应（ＲＴ－ＰＣＲ）从ＨＩＶ－１感染者外周血淋巴细胞中扩增抗体轻重链可变区基因,插入载体ｐＣＯＭＢ３,建立噬菌体抗体库。分别以ＨＩＶ－１ｇｐ１２０和ｇｐ１６０为固相抗原,经过多轮筛选,从中获得了多株抗ＨＩＶ－１ｇｐ４１、ｇｐ１２０和ｇｐ１６０的单克隆抗体Ｆａｂ段基因。抗ＨＩＶ特异性噬菌体抗体随抗体库的筛选高度富集,抗     

Preparation of a whole genome phage library using fragmented Escherichia coli genome and its characterization of protein binding properties by surface plasmon resonance

A novel phage library has been prepared using the Escherichia coli genome digested with three restriction enzymes. The resulting DNA fragments were ligated to the expression vector pCANTAB5 to obtain the library of recombinant M13 phages displaying relatively long exogenous peptides. The library was screened to isolate recombinant phages with high affinity to alkaline phosphatase (AP) from calf intestine. After four rounds of panning three phages (AP1, AP2 and AP3) were shown to have specific binding properties toward AP by enzyme-linked immunosorbent assay. The phages were further characterized by surface plasmon resonance (SPR). Among the three phages AP3 bound the AP-immobilized sensor chip most and caused the highest resonant angle shift. The sensor response decreased with the decrease of the concentration of AP3 added. Furthermore, displacement of AP3 from the AP-immobilized sensor chip was observed upon injection of AP solution to the SPR system, whereas injection of bovine serum albumin solution led to the great increase of the sensor response. This result indicates the specific binding of AP3 to AP.     

基于细胞的噬菌体抗体库筛选技术

肿瘤细胞表面抗原的表达量低,免疫原性弱,因抗原构象改变的原因,用传统的固定化抗原方法很难获得有价值的噬菌体抗体。这类抗原大多具有复杂的结构,且其转运、定位与细胞类型及所处的微环境有关。在基于细胞的筛选中,靶抗原以天然状态存在,不需纯化,甚至可以对未知抗原进行筛选,因此广泛用于对内化抗体和血管内皮抗原表位抗体的筛选。基于细胞的抗体筛选中的主要问题是因非特异结合造成的选择背景过高,迄今,已有许多旨在改善选择灵敏度和特异性的研究开展起来。随高通量流式细胞术、组合化学及蛋白质组学研究技术在细胞筛选中的运用,必将使其日趋实用和成熟。我们拟以细胞和组织筛选的技术做一概括,为了解基于细胞的筛选和优化设计提供参考。     

Novel N4 Bacteriophages Prevail in the Cold Biosphere

Coliphage N4 is a lytic bacteriophage discovered nearly half a century ago, and it was considered to be a “genetic orphan” until very recently, when several additional N4-like phages were discovered to infect nonenteric bacterial hosts. Interest in this genus of phages is stimulated by their unique genetic features and propagation strategies. To better understand the ecology of N4-like phages, we investigated the diversity and geographic patterns of N4-like phages by examining 56 Chesapeake Bay viral communities, using a PCR-clone library approach targeting a diagnostic N4-like DNA polymerase gene. Many new lineages of N4-like phages were found in the bay, and their genotypes shift from the lower to the upper bay. Interestingly, signature sequences of N4-like phages were recovered only from winter month samples, when water temperatures were below 4°C. An analysis of existing metagenomic libraries from various aquatic environments supports the hypothesis that N4-like phages are most prolific in colder waters. In particular, a high number of N4-like phages were detected in Organic Lake, Antarctica, a cold and hypersaline system. The prevalence of N4-like phages in the cold biosphere suggests these viruses possess yet-to-be-determined mechanisms that facilitate lytic infections under cold conditions.     

Selection-dominant and nonaccessible epitopes on cell-surface receptors revealed by cell-panning with a large phage antibody library.

To generate antibodies to defined cell-surface antigens, we used a large phage antibody fragment library to select on cell transfectants expressing one of three chosen receptors. First, in vitro panning procedures and phage antibody screening ELISAs were developed using whole live cells stably expressing the antigen of interest. When these methodologies were applied to Chinese hamster ovary (CHO) cells expressing one of the receptors for a neuropeptide, somatostatin, using either direct cell panning or a strategy of depletion or ligand-directed elution, many different pan-CHO-cell binders were selected, but none was receptor specific. However, when using direct panning on CHO-cells expressing the human membrane protein CD36, an extraordinary high frequency of antigen-specific phage antibodies was found. Panning on myoblasts expressing the rat homologue of CD36 revealed a similar selection dominance for anti-(CD36). Binding of all selected 20 different anti-(CD36) phage was surprisingly inhibited by one anti-(CD36) mAb CLB-IVC7, which recognizes a functional epitope that is also immunodominant in vivo. Similar inhibition was found for seven anti-(rat) CD36 that cross-reacted with human CD36. Our results show that, although cells can be used as antigen carriers to select and screen phage antibodies, the nature of the antigen target has a profound effect on the outcome of the selection.     

Identification of one peptide which inhibited infectivity of avian infectious bronchitis virus in vitro

Purified avian infectious bronchitis virus (IBV) was used to screen a random phage display peptide library. After the fourth panning, 10 positive phages were sequenced and characterized. The phages specifically inhibited IBV infectivity in HeLa cells and blocked IBV haemagglutination. One linear peptide “GSH HRH VHS PFV” from the positive phages with the highest neutralization titer was synthesized and this peptide inhibited IBV infection in HeLa as well. The results may contribute to development of antiviral therapeutics for IBV and studying the determinants for viral and cell interac-tion.     

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.     

Cloning antifungal single chain fragment variable antibodies by phage display and competitive panning elution

Phage display and two competitive panning elution conditions were used to isolate Candida-specific single chain fragment variable (scFv) antibodies. An scFv phage library constructed from splenic lymphocytes of mice immunized by idiotypic vaccination with an HM-1 killer toxin (HM-1)-neutralizing monoclonal antibody (nmAb-KT) was used for panning against Candidaalbicans membrane fraction (CaMF). Key steps were specific elution conditions to separately release the bound phages with original antigen HM-1 + HM-1 peptide 6 and CaMF. The positive phages were screened by using enzyme-linked immunosorbent assay, and after nucleotide sequencing, clone expression, and purification, clone scFv-C1 was selected for detailed characterization. The scFv-C1 showed IC₅₀ values for cell growth against various Candida species and Saccharomyces cerevisiae as 2.40 to 6.40 μM and 2.20 μM, respectively. By using surface plasmon resonance analysis, the scFv-C1 had a K_d value of 3.09 × 10⁻¹¹ M to nmAb-KT, indicating a 260-fold higher affinity than for HM-1. These results showed the generated scFv-C1 mimicking HM-1-binding affinity to nmAb-KT and in vitro antifungal activity. We believe that the effectiveness of the competitive panning elution method and antigen-specific recombinant scFv antibodies obtained in this study are excellent candidates for antimycotic drugs.     

Identification of one peptide which inhibited infectivity of avian infectious bronchitis virus in vitro

Purified avian infectious bronchitis virus (IBV) was used to screen a random phage display peptide library. After the fourth panning, 10 positive phages were sequenced and characterized. The phages specifically inhibited IBV infectivity in HeLa cells and blocked IBV haemagglutination. One linear peptide “GSH HRH VHS PFV” from the positive phages with the highest neutralization titer was synthesized and this peptide inhibited IBV infection in HeLa as well. The results may contribute to development of antiviral therapeutics for IBV and studying the determinants for viral and cell interaction.