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.     

交替洗脱法筛选高亲和力噬菌体肽

以人胰岛素为靶蛋白从七肽展示库中筛选高亲和力噬菌体肽,在洗脱阶段采用酸性洗脱液和高浓度靶蛋白溶液进行4次交替洗脱,选择性回收高亲和力噬菌体肽。测定滴度计算回收率,ELISA法分别测定噬菌体洗脱液整体亲和力和噬菌体单克隆的结合特性并计算亲合率。洗脱步骤采用4次交替洗脱后,第二轮第4次噬菌体的回收率比第一轮增长了1800倍,高亲和力噬菌体在洗脱液中所占比例也迅速提高,第二轮第4次洗脱液中达75％,在第三轮的各次洗脱液中几乎均达100％。建立了一种快速筛选高亲和力噬菌体肽的方法,改进后的筛选方法能使高亲和力噬菌体肽的筛选工作更为简便且效果显著。     

新型噬菌体表面呈现载体的构建

作为抗体库筛选的一个有效方法,噬菌体表面呈现技术在单链抗体的研制和中得到广泛的应用。以噬菌粒pCANTAB5E和pHB为基础。利用PCR和DNA重组方法,构建了一个新型的用于单链抗体噬菌体表面呈现的噬菌粒载体,随后用一株对大肠杆菌细胞有毒性的人源化单链抗体（1HSCFV）对其呈现单链抗体的效果进行了初步的评价。结果表明新型噬菌粒系统具有更好的呈现能力。     

Peptide inhibitor of pancreatic lipase selected by phage display using different elution strategies

Interference with fat hydrolysis results in the reduced use of ingested lipids. Inhibition of pancreatic lipase reduces the efficiency of fat absorption in the small intestine and thereby initiates modest long-term reduction in body weight. In an attempt to select peptides with affinity for the surface of pancreatic lipase and potential inhibitory activity, a random, cyclic heptapeptide phage-displayed library was used. Five independent selections, differing in elution step, were performed. In three selection protocols, a sequential elution strategy was applied in anticipation of improving the selection of high-affinity clones. Four heptapeptides with the highest affinity, seemingly for pancreatic lipase, were selected, synthesized, and characterized for their capacity to inhibit enzyme function. Although no clear consensus among the sequenced peptides was found, one of the selected peptides inhibited pancreatic lipase with an apparent inhibition constant of 16 muM.     

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.     

From phage display to magnetophage, a new tool for magnetic resonance molecular imaging

Phage display, an extremely promising technology in the context of molecular imaging, allows for the selection of peptides interacting with virtually any target from a heterogeneous mixture of bacteriophages. In this work, we propose the concept of magnetophages, obtained by covalent coupling of ultrasmall particles of iron oxide (USPIO) to the proteins of the phage wall. To validate magnetophages as a magnetic resonance imaging contrast agent (MRI), we have used as a prototype the clone E3 because of its specific affinity for phosphatidylserine, a marker of apoptosis. Enzyme-linked immunosorbent assay showed that E3 magnetophages incubated with phosphatidylserine retained the properties of the nonmagnetically labeled phages. The usefulness of magnetophages as an MRI contrast agent was estimated by incubation with phosphatidylcholine and phosphatidylserine or with apoptotic and control cells. Under these conditions, E3 magnetophages allow the discrimination of phosphatidylserine from phosphatidylcholine and of apoptotic cells from control ones. Injected in vivo, magnetophages are rapidly cleared from the blood stream and internalized by the phagocytic cells of the liver. To abrogate this problem, USPIO were pegylated to obtain stealthy E3-PEG-magnetophages, invisible to phagocytic cells, which were successfully targeted to apoptotic liver. If this feature demonstrated for E3 magnetophages can be extrapolated to other phage display selected entities, magnetophages become an original system which allows validation of the candidate binding peptides before their synthesis is considered. The concept of the magnetophage could be extended to other imaging modalities by replacing USPIO with an adequate reporter (i.e., radiolabeled phages).     

An approach to increased polyplex gene delivery by peptides selected from a phage display library

Phage display libraries were screened for peptides to be incorporated in nonviral gene delivery vehicles. Cells in culture were incubated with heptamer random peptide libraries displayed on M13 bacteriophages in three to five copies per phage. Surface-adherent phages were removed or inactivated and the cells were fractionated in a nuclear pellet and supernatant. Bacteriophages from each of the two fractions were amplified and reincubated with the cells. Three successive rounds of selection were performed. Eighteen sequenced clones revealed 14 different sequences. Two sequences were homologous to segments of the HIV gp120 protein. For three sequences, the corresponding synthetic peptides were generated and attached via avidin-biotin to polylysine-condensed plasmid DNA containing a reporter gene. The addition of the peptides led to 8-14 times increase in the expression of the reporter.     

Antibody discovery: phage display

Phage display has proven to be a robust and convenient technology for the selection of high-quality human antibodies from diverse libraries. Besides enabling the identification of antibodies in a fast, high-throughput mode, which allows comprehensive protein expression analyses, phage display has been used to identify a fully human therapeutic antibody presently undergoing the regulatory process for market approval.     

Citrulline-modified phage display: a novel high-throughput discovery approach for the identification of citrulline-containing ligands

Phage display is a high-throughput technology used to identify ligands for a given target. A drawback of the approach is the absence of PTMs in phage-displayed peptides. The applicability of phage display could be broadened considerably by the implementation of PTMs in this system. The aim of this study was to investigate the possible application of citrullination, a PTM of an arginine into a citrulline amino acid, in filamentous (M13) and lytic (T7) phage display. After in vitro citrullination of T7 and M13 phages, citrullination was confirmed and the infectivity of both citrullinated and non-citrullinated phage was compared by titer determination. We demonstrated the successful in vitro citrullination of T7 and M13 phage-displayed peptides. This in vitro modification did not affect the viability or infectivity of the T7 virions, a necessary prerequisite for the implementation of this approach in T7 phage display. For M13 phage, however, the infecting phage titer decreased five-fold upon citrullination, limiting the use of this modification in M13 phage display. In conclusion, in vitro citrullination can be applied in T7 phage display giving rise to a high-throughput and sensitive approach to identify citrulline-containing ligands by the use of the strengths of phage display technology.     

A helper phage to improve single-chain antibody presentation in phage display

We show here that the number of single-chain antibody fragments (scFv) presented on filamentous phage particles generated with antibody display phagemids can be increased by more than two orders of magnitude by using a newly developed helper phage (hyperphage). Hyperphage have a wild-type pIII phenotype and are therefore able to infect F(+) Escherichia coli cells with high efficiency; however, their lack of a functional pIII gene means that the phagemid-encoded pIII-antibody fusion is the sole source of pIII in phage assembly. This results in an considerable increase in the fraction of phage particles carrying an antibody fragment on their surface. Antigen-binding activity was increased about 400-fold by enforced oligovalent antibody display on every phage particle. When used for packaging a universal human scFv library, hyperphage improved the specific enrichment factor obtained when panning on tetanus toxin. After two panning rounds, more than 50% of the phage were found to bind to the antigen, compared to 3% when conventional M13KO7 helper phage was used. Thus, hyperphage is particularly useful in stoichiometric situations, when there is little chance that a single phage will locate the desired antigen.     

Isolation of blood-brain barrier-crossing antibodies from a phage display library by competitive elution and their ability to penetrate the central nervous system

The blood-brain barrier (BBB) is a formidable obstacle for delivery of biologic therapeutics to central nervous system (CNS) targets. Whilst the BBB prevents passage of the vast majority of molecules, it also selectively transports a wide variety of molecules required to maintain brain homeostasis. Receptor-mediated transcytosis is one example of a macromolecule transport system that is employed by cells of the BBB to supply essential proteins to the brain and which can be utilized to deliver biologic payloads, such as antibodies, across the BBB. In this study, we performed phage display selections on the mouse brain endothelial cell line, bEND.3, to enrich for antibody single-chain variable fragments (scFvs) that could compete for binding with a known BBB-crossing antibody fragment, FC5. A number of these scFvs were converted to IgGs and characterized for their ability to bind to mouse, rat and human brain endothelial cells, and subsequent ability to transport across the BBB. We demonstrated that these newly identified BBB-targeting IgGs had increased brain exposure when delivered peripherally in mice and were also able to transport a biologically active molecule, interleukin-1 receptor antagonist (IL-1RA), into the CNS. The antagonism of the interleukin-1 system within the CNS can result in the relief of neuropathic pain. We demonstrated that the BBB-targeting IgGs were able to elicit an analgesic response in a mouse model of nerve ligation-induced hypersensitivity when fused to IL-1RA.     

Bacteriophage lambda display of complex cDNA libraries: a new approach to functional genomics

We describe the construction and characterization of two lambda surface displayed cDNA expression libraries derived from human brain and mouse embryo. cDNA inserts were obtained by tagged random-priming elongation of commercially available cDNA libraries and cloned into a novel lambda vector at the 3' end of the D capsid protein gene, which produced highly complex repertoires (1x10(8) and 2x10(7) phage). These libraries were affinity selected with a monoclonal antibody against the neural specific factor GAP-43 and with polyclonal antibodies that recognize the EMX1 and EMX2 homeoproteins. In both cases rapid identification of specific clones was achieved, which demonstrates the great potential of the lambda display system for generating affinity selectable cDNA libraries from complex genomes.     

Identification of amino acids involved in the Flo11p-mediated adhesion of Saccharomyces cerevisiae to a polystyrene surface using phage display with competitive elution

AIMS: To identify the main amino acids involved in the Flo11p-mediated adhesion of Saccharomyces cerevisiae to the polystyrene surface PolySorp. METHODS AND RESULTS: Using a combination of phage display and competitive elution revealed that 12-mer peptides of phages from competitive panning with S. cerevisiae FLO11 wild-type (TBR1) cells had a higher consensus than those from competitive panning with S. cerevisiae flo11Delta mutant (TBR5) cells, suggesting that the wild-type cells interact with the plastic surface in a stronger and more similar way than the mutant cells. Tryptophan and proline were more abundant in the peptides of phages from competitive elution with FLO11 cells than in those from competitive elution with flo11Delta cells. Furthermore, two phages with hydrophobic peptides containing 1 or 2 tryptophan, and 3 or 5 proline, residues inhibited the adhesion of FLO11 cells to PolySorp more than a phage with a hydrophobic peptide containing no tryptophan and only two proline residues. CONCLUSIONS: Our results suggest a key role of tryptophan and proline in the hydrophobic interactions between Flo11p on the S. cerevisiae cell surface and the PolySorp surface. SIGNIFICANCE AND IMPACT OF THE STUDY: Our study may contribute to the development of novel strategies to limit yeast infections in hospitals and other medical environments.     

The fascinating biology behind phage display: filamentous phage assembly

With the recently awarded Nobel Prize to the inventor of Phage Display, George Smith, the technique has once more gained attention. However, one should not forget about the biology behind the method. Almost always ignored is how the structure of this bacterial virus is assembled. In contrast to lytic phages, filamentous phages are constantly being extruded through the bacterial membranes without lysis. Such filamentous phages are found in all aquatic environments, such as rivers and lakes, in the deep sea, in arctic ice, in hot springs and, associated with their hosts, in plants and animals including humans. While most filamentous phages infect Gram‐negative hosts, inoviruses of Gram‐positive hosts have also been described. Despite being among the minority within the phage family with an estimate of less than 5%, filamentous phages are real parasites as they exist at the expense of the host, but do not kill it. In contrast to lytic bacteriophages, filamentous phages are assembled in the host’s membrane and extruded across the cellular envelope while the bacterium continues to grow. In this review, we focus on this complex and yet poorly understood process of assembly and secretion of filamentous phages.     

Metasecretome-selective phage display approach for mining the functional potential of a rumen microbial community

Background

In silico, secretome proteins can be predicted from completely sequenced genomes using various available algorithms that identify membrane-targeting sequences. For metasecretome (collection of surface, secreted and transmembrane proteins from environmental microbial communities) this approach is impractical, considering that the metasecretome open reading frames (ORFs) comprise only 10% to 30% of total metagenome, and are poorly represented in the dataset due to overall low coverage of metagenomic gene pool, even in large-scale projects.

Results

By combining secretome-selective phage display and next-generation sequencing, we focused the sequence analysis of complex rumen microbial community on the metasecretome component of the metagenome. This approach achieved high enrichment (29 fold) of secreted fibrolytic enzymes from the plant-adherent microbial community of the bovine rumen. In particular, we identified hundreds of heretofore rare modules belonging to cellulosomes, cell-surface complexes specialised for recognition and degradation of the plant fibre.

Conclusions

As a method, metasecretome phage display combined with next-generation sequencing has a power to sample the diversity of low-abundance surface and secreted proteins that would otherwise require exceptionally large metagenomic sequencing projects. As a resource, metasecretome display library backed by the dataset obtained by next-generation sequencing is ready for i) affinity selection by standard phage display methodology and ii) easy purification of displayed proteins as part of the virion for individual functional analysis.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-356) contains supplementary material, which is available to authorized users.     

Band-shape analysis and display of fine structure in protein spectra: a new approach to perturbation spectroscopy

The shape of light absorption bands of proteins to about 250 nm can be described as the sum of two overlapping lognormal distribution curves. A plot of the differences between the mathematically smooth fitted curve and the experimental points provides a vivid display of vibronic fine structure. Band parameters and difference plots are provided for the N-acetyl-ethyl esters of the aromatic amino acids and are compared with those of glucagon, ribonuclease, chymotrypsinogen, lysozyme and apoaspartate aminotransferase. Changes in band parameters and fine structure are observed upon denaturation and in conversion of glucagon to fibril form.