Phage display-based generation of novel internalizing antibody fragments for immunotoxin-based treatment of acute myeloid leukemia

The current standard treatment for acute myeloid leukemia (AML) is chemotherapy based on cytarabine and daunorubicine (7 + 3), but it discriminates poorly between malignant and benign cells. Dose-limiting off‑target effects and intrinsic drug resistance result in the inefficient eradication of leukemic blast cells and their survival beyond remission. This minimal residual disease is the major cause of relapse and is responsible for a 5-year survival rate of only 24%. More specific and efficient approaches are therefore required to eradicate malignant cells while leaving healthy cells unaffected. In this study, we generated scFv antibodies that bind specifically to the surface of AML blast cells and AML bone marrow biopsy specimens. We isolated the antibodies by phage display, using subtractive whole-cell panning with AML M2‑derived Kasumi‑1 cells. By selecting for internalizing scFv antibody fragments, we focused on potentially novel agents for intracellular drug delivery and tumor modulation. Two independent methods showed that 4 binders were internalized by Kasumi-1 cells. Furthermore, we observed the AML‑selective inhibition of cell proliferation and the induction of apoptosis by a recombinant immunotoxin comprising one scFv fused to a truncated form of Pseudomonas exotoxin A (ETA''). This method may therefore be useful for the selection of novel disease-specific internalizing antibody fragments, providing a novel immunotherapeutic strategy for the treatment of AML patients.     

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.     

Biological effects of anti-ErbB2 single chain antibodies selected for internalizing function

Two internalizing monovalent single chain antibody fragments (scFv), C6.5 and F5, that recognize distinct ErbB2 extracellular domain (ECD) epitopes, and their bivalent forms dbC6.5 and F5(scFv')(2), were compared to the growth-inhibiting anti-ErbB2 antibody Herceptin/trastuzumab, in either its bivalent (Her) or monovalent (4D5Fab') form, for their abilities to induce biological responses in the ErbB2-overexpressing breast cancer cells, SkBr-3. Assays compared internalization by receptor-mediated endocytosis, effects on cell cycling and culture growth, and interference with intracellular MAPK and PI3K signaling pathways. We found no correlation between ErbB2 epitope affinity or valency on degree of antibody-induced endocytosis, since all the scFv were able to internalize better than Her. Unlike Her, neither the monovalent or bivalent forms of the internalizing scFv had any sustained effect on cell growth. Basal levels of MAPK and PI3K signaling in SkBr-3 cells were not inhibited by up to 8 h scFv treatment, while decreased MAPK and PI3K signals were noted within 8 h of Her treatment. In summary, antibody-induced ErbB2-mediated endocytosis is not a surrogate marker for resultant biological response, as it shows no correlation with cell cycle, culture proliferation, or intracellular kinase signal induction by internalizing antibodies. Thus, the enhanced endocytotic property of scFv like C6.6 and F5 in conjunction with their absence of any growth or signaling impact on ErbB2-overexpressing cells favors their choice as ErbB2 targeting moieties for intracellular delivery of novel cancer therapeutics.     

Characterization of the novel anti-TNF-α single-chain fragment antibodies using experimental and computational approaches

Single-chain fragment variable (scFv) antibodies are antibody fragments consist of variable domains of full antibodies known to retain antigen binding properties while having much lower molecular weights granting some beneficial properties to them. In our previous study, three phage particles each displaying an individual scFv antibody (i.e. J43, J44, and J48) were identified as tumor necrosis factor alpha (TNF-α) binders. The current study aimed to produce previously identified anti-TNF-α scFv antibodies and to investigate their abilities to bind and inhibit TNF-α biological effect. The estimated free energy of folding determined using spectrofluorimetry method for the prepared scFv proteins was in the range of 6.35–12.45?kJ?mol^?1 indicating their proper folding in the solution. In ELISA experiment, the produced scFvs showed an appropriate affinity towards TNF-α with K_d values in the range of 0.5–2.18?µM. They also inhibited the TNF-α-induced cytotoxicity on L929 cells with sub-micromolar IC₅₀ values (0.12 and 0.73?μM for J44 and J48, respectively). Molecular docking studies showed that J44 could mimic adalimumab interactions with TNF-α, confirming its relatively high TNF-α inhibitory effect compared to J43 and J48. It seems that the findings in the current study can be useful for designing more potent anti-TNF-α antibodies.     

A novel in vivo method for isolating antibodies from a phage display library by neuronal retrograde transport selectively yields antibodies against p75NTR

The neurotrophin receptor p75^NTR is utilized by a variety of pathogens to gain entry into the central nervous system (CNS). We tested if this entry portal might be exploited using a phage display library to isolate internalizing antibodies that target the CNS in vivo. By applying a phage library that expressed human single chain variable fragment (scFv) antibodies on their surface to a transected sciatic nerve, we showed that (1) phage conjugated to anti-p75^NTR antibody or phage scFv library pre-panned against p75^NTR are internalized by neurons expressing p75^NTR; (2) subsequent retrograde axonal transport separates internalized phage from the applied phage; and, (3) internalized phage can be recovered from a proximal ligature made on a nerve. This approach resulted in 13-fold increase in the number of phage isolated from the injured nerve compared with the starting population, and isolation of 18 unique internalizing p75^NTR antibodies that were transported from the peripheral nerve into the spinal cord, through the blood-brain barrier. In addition, antibodies recognizing other potentially internalized antigens were identified through in vivo selection using a fully diverse library. Because p75^NTR expression is upregulated in motor neurons in response to injury and in disease, the p75^NTR antibodies may have substantial potential for cell-targeted drug/gene delivery. In addition, this novel selection method provides the potential to generate panels of antibodies that could be used to identify further internalization targets, which could aid drug delivery across the blood-brain barrier.     

Generation and characterization of C305, a murine neutralizing scFv antibody that can inhibit BLyS binding to its receptor BCMA

B-lymphocyte stimulator (BLyS) is a member of the tumor necrosis factor (TNF) family and a key regulator of B cell response. Neutralizing single-chain fragment variable (scFv) antibody against BLyS binding to its receptor BCMA has the potential to play a prominent role in autoimmune disease therapy. A phage display scFv library constructed on pill protein of MI 3 filamentous phage was screened using BLyS.After five rounds of panning, their binding activity was characterized by phage-ELISA. Nucleotide sequencing revealed that at least two different scFv gene fragments (C305 and D416) were obtained. The two different scFv gene fragments were expressed to obtain the soluble scFv antibodies, then the soluble scFv antibodies were characterized by means of competitive ELISA and in vitro neutralization assay. The results indicated that C305 is the neutralizing scFv antibody that can inhibit BLyS binding to its receptor BCMA.     

NDRG2 and TLR7 as novel DNA methylation prognostic signatures for acute myelocytic leukemia

Acute myelocytic leukemia (AML) is an aggressive malignant tumor and typically fatal without treatment. Identification and development of novel biomarkers could be beneficial for the diagnosis and prognosis of AML patients. Here, we aimed to identify the accurate DNA methylation prognostic signatures for AML patients. The DNA methylation data of AML patients and corresponding clinical information were retrieved from The Cancer Genome Atlas database. CPG sites that correlates closely with the survival of the AML patients were identified and further combined into CPG sites pairs to screen the survival-related pairs. The prognostic signatures were identified by the C-index and forward search algorithms and validated by the verification group. Finally, the functional enrichment analysis was performed on these CPG sites. As a result, a total of 498 CPG sites associated with the overall survival of AML patients was obtained. A prognostic signature composed of 10 CPG sites pairs was obtained and validated. The functional enrichment analysis showed prognostic genes were mainly enriched in tumor protein processing, cell differentiation, blood leukocyte immunity, and platelet growth factor pathways. In summary, we identified two accurate prognostic methylation signatures (NDRG2 and TLR7), which would be served as a novel therapy target for AML.     

Immunodetection of Venturia inaequalis Ascospores with Phage Antibodies

We describe the bacterial expression of single chain variable fragment (scFv) antibodies that bind specifically to the ascospores of Venturia inaequalis (Cooke). A scFv phage display library was prepared from the expressed V‐gene repertoire of a mouse immunized with whole V. inaequalis ascospores. Affinity selection was then carried out using intact, non‐germinated ascospores. The binding of selected phage antibodies was monitored by enzyme‐linked immunosorbent assay, flow cytometry and fluorescence microscopy. Several scFv antibodies were found to bind specifically to V. inaequalis ascospores. No cross‐reactivity was detected with spores from other phytopathogenic fungi, such as Plectosphaerella cucumerina, Cladosporium spp. and Alternaria brassicicola. Moreover, the scFvs did not bind to V. inaequalis conidiospores or mycelia. This is the first report describing the immunodetection of V. inaequalis ascospores by phage‐derived scFv antibody fragments. The degree of specificity of the antibodies is sufficiently high to allow rapid detection of ascospores within environmental probes such as those from particle samplers.     

A high-throughput platform for population reformatting and mammalian expression of phage display libraries to enable functional screening as full-length IgG

Phage display antibody libraries are a rich resource for discovery of potential therapeutic antibodies. Single-chain variable fragment (scFv) libraries are the most common format due to the efficient display of scFv by phage particles and the ease by which soluble scFv antibodies can be expressed for high-throughput screening. Typically, a cascade of screening and triaging activities are performed, beginning with the assessment of large numbers of E. coli-expressed scFv, and progressing through additional assays with individual reformatting of the most promising scFv to full-length IgG. However, use of high-throughput screening of scFv for the discovery of full-length IgG is not ideal because of the differences between these molecules. Furthermore, the reformatting step represents a bottle neck in the process because each antibody has to be handled individually to preserve the unique VH and VL pairing. These problems could be resolved if populations of scFv could be reformatted to full-length IgG before screening without disrupting the variable region pairing. Here, we describe a novel strategy that allows the reformatting of diverse populations of scFv from phage selections to full-length IgG in a batch format. The reformatting process maintains the diversity and variable region pairing with high fidelity, and the resulted IgG pool enables high-throughput expression of IgG in mammalian cells and cell-based functional screening. The improved process led to the discovery of potent candidates that are comparable or better than those obtained by traditional methods. This strategy should also be readily applicable to Fab-based phage libraries. Our approach, Screening in Product Format (SiPF), represents a substantial improvement in the field of antibody discovery using phage display.     

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.     

Production and characterization of a recombinant single-chain antibody against Hantaan virus envelop glycoprotein

Hantaan virus (HTNV) is the type of Hantavirus causing hemorrhagic fever with renal syndrome, for which no specific therapeutics are available so far. Cell type-specific internalizing antibodies can be used to deliver therapeutics intracellularly to target cell and thus, have potential application in anti-HTNV infection. To achieve intracellular delivery of therapeutics, it is necessary to obtain antibodies that demonstrate sufficient cell type-specific binding, internalizing, and desired cellular trafficking. Here, we describe the prokaryotic expression, affinity purification, and functional testing of a single-chain Fv antibody fragment (scFv) against HTNV envelop glycoprotein (GP), an HTNV-specific antigen normally located on the membranes of HTNV-infected cells. This HTNV GP-targeting antibody, scFv3G1, was produced in the cytoplasm of Escherichia coli cells as a soluble protein and was purified by immobilized metal affinity chromatography. The purified scFv possessed a high specific antigen-binding activity to HTNV GP and HTNV-infected Vero E6 cells and could be internalized into HTNV-infected cells probably through the clathrin-dependent endocytosis pathways similar to that observed with transferrin. Our results showed that the E. coli-produced scFv had potential applications in targeted and intracellular delivery of therapeutics against HTNV infections.     

Cloning,expression, and identification of anti‐carbofuran single chain Fv gene

Phage display method was used to clone anti‐carbofuran (CBF) single chain Fv (scFv) gene. The heavy chain and light chain variable region genes were amplified by the polymerase chain reaction from the CBF‐specific hybridoma cell lines 5D3 and assembled as a scFv DNA fragment with linker peptide (Gly₄Ser)₃. The scFv DNA fragment was cloned into M13 phagemid vector pCANTAB5E and the anti‐CBF antibody libraries were then constructed. After one round of panning with CBF‐ovalbumin (CBF‐OVA) as a conjugate, antigen‐binding positive recombinant phage clones were successfully selected by enzyme‐linked immunosorbent assay (ELISA). The positive phages were used to infect Escherichia coli HB2151 cells and the expression of the soluble scFv antibodies was then induced by IPTG. The scFv antibody was about 31 kDa by SDS‐PAGE and showed HRP‐anti‐E‐tag antibody‐recognized activity by Western blotting. The indirect competitive ELISA (icELISA) showed that the recombinant scFv antibody could competitively combine with CBF, with the IC₅₀ value of 1.07 ng/mL. The cross reactivity studies showed that the anti‐CBF scFv antibody, similar to the parent monoclonal antibody, poses high specificity to CBF and has little reactivity to the analogs. Taken together, these findings suggest that the recombinant scFv antibody can be used for further developing immunoassay method for CBF. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

天然兔源噬菌体单链抗体库的构建与鉴定

目的:构建天然兔源噬菌体单链抗体库。方法:采用RT-PCR法从未免疫的兔子脾脏中克隆得到抗体重链可变区(VH)与轻链可变区(VL)基因,重叠PCR将VH和VL拼接成scFv片段,将scFv连接到噬菌粒pComb3XSS上,电转入XL1-Blue菌中,得到单链抗体库,并用此抗体库筛选抗肌酸激酶抗体。结果:构建了容量为4×108,基因重组率95%的单链抗体库,DNA指纹图谱显示抗体库多样性良好。以肌酸激酶为抗原,从该库中筛到3株抗肌酸激酶的抗体。结论:分析表明构建的天然兔源单链抗体库质量良好,可用于快速筛选、制备多种单链抗体。     

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}     

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.     

The Production of Miniantibodies Against Human Granulocyte Colony-Stimulating Factor Using the Murine scFv Combinatory Library

To develop a phage display of single-chain antibodies (scFv), fractions of total cell DNA and RNA were obtained from splenocytes of naive mice. The DNA fragments encoding variable regions of light and heavy immunoglobulin chains were amplified and isolated using primers specific to the conservative regions of these genes. The construction of the library was based on the principle of stochastic combining the DNA fragments encoding the light and heavy antibody chains with the DNA linker, whose structure corresponded to the (Gly₄Ser)₃ sequence. The scFv library was constructed using the E. coli TG1 strain and the phagemid vector pHEN1. The repertoire of the library exceeded 5 × 10⁷ independent recombinant clones. The clones producing antibodies to human granulocyte colony-stimulating factor were isolated. The affinity constants of the resulting scFv were in the range of 2 × 10⁴ to 1.8 × 10⁷ M^–1.     

Generation of high-affinity fully human anti-interleukin-8 antibodies from its cDNA by two-hybrid screening and affinity maturation in yeast

We have developed a technology for rapidly generating novel and fully human antibodies by simply using the antigen DNA. A human single‐chain variable fragment (scFv) antibody library was constructed in a yeast two‐hybrid vector with high complexity. After cloning cDNA encoding the mature sequence of human interleukin‐8 (hIL8) into the yeast two‐hybrid system vector, we have screened the human scFv antibody library and obtained three distinct scFv clones that could specifically bind to hIL8. One clone was chosen for further improvement by a novel affinity maturation process using the error‐prone PCR of the scFv sequence followed by additional rounds of yeast two‐hybrid screening. The scFv antibodies of both primary and affinity‐matured scFv clones were expressed in E. coli. All purified scFvs showed specific binding to hIL8 in reciprocal coimmunoprecipitation and ELISA assays. All scFvs, as well as a fully human IgG antibody converted from one of the scFv clones and expressed in the mammalian cells, were able to effectively inhibit hIL8 in neutrophil chemotaxis assays. The technology described can generate fully human antibodies with high efficiency and low cost.     

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.