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.     

The amber codon in the gene encoding the monomethylamine methyltransferase isolated from Methanosarcina barkeri is translated as a sense codon.

Each of the genes encoding the methyltransferases initiating methanogenesis from trimethylamine, dimethylamine, or monomethylamine by various Methanosarcina species possesses one naturally occurring in-frame amber codon that does not appear to act as a translation stop during synthesis of the biochemically characterized methyltransferase. To investigate the means by which suppression of the amber codon within these genes occurs, MtmB, a methyltransferase initiating metabolism of monomethylamine, was examined. The C-terminal sequence of MtmB indicated that synthesis of this mtmB1 gene product did not cease at the internal amber codon, but at the following ochre codon. Antibody raised against MtmB revealed that Escherichia coli transformed with mtmB1 produced the amber termination product. The same antibody detected primarily a 50-kDa protein in Methanosarcina barkeri, which is the mass predicted for the amber readthrough product of the mtmB1 gene. Sequencing of peptide fragments from MtmB by Edman degradation and mass spectrometry revealed no change in the reading frame during mtmB1 expression. The amber codon position corresponded to a lysyl residue using either sequencing technique. The amber codon is thus read through during translation at apparently high efficiency and corresponds to lysine in tryptic fragments of MtmB even though canonical lysine codon usage is encountered in other Methanosarcina genes.     

New display vector reduces biological bias for expression of antibodies in E. coli

We report the development of a novel phagemid vector, pKM19, for display of recombinant antibodies in single-chain format (scFv) on the surface of filamentous phage. This new vector improves efficacy of selection and reduces the biological bias against antibodies that can be harmful to host bacteria. It is useful for generation of large new antibody libraries, and for the subsequent maturation of antibody fragments. In comparison with commonly used plasmids, this vector is designed to have relatively low expression levels of cloned scFv antibodies due to the amber codon positioned in a sequence encoding for the PhoA leader peptide. Moreover, fusion of antibodies to the carboxy terminal part only of the gene III protein improves display of scFv on bacteriophage surface in this system. Despite the lower antibody expression, the functional test performed with a new scFv library derived from human peripheral blood lymphocytes demonstrates that specific antibodies can be easily isolated from the library, even after the second selection round. The use of the pKM19 vector for maturation of an anti-CEA antibody significantly improves the final results. In our previous work, an analogous selection through the use of a phagemid vector, with antibody expression under the control of a lacP promoter, led to isolation of anti-CEA phage antibodies with improved affinities, which were not producible in soluble form. Probably due to the toxicity for E. coli of that particular anti-CEA antibody, 70% of maturated clones contained suppressed stop codons, acquired during various selection/amplification rounds. The pKM19 plasmid facilitates an efficient maturation process, resulting in selection of antibodies with improved affinity without any stop codons.     

Escherichia coli JA221 can suppress the UAG stop signal

The Escherichia coli strain JA221 can suppress the UAG stop codon, although the existence of an amber suppressor tRNA has not previously been described for this strain. When using a plasmid to express α-sarcin, which has TAG as its stop signal, two proteins were obtained: a smaller protein corresponding in size to that of the expected protein, and a larger protein, which could be accounted for by the presence of a second stop codon (TGA) 18 base pairs downstream of the original. This feature of strain JA221 must therefore be considered when using this strain as a host for the production of recombinant proteins.     

β淀粉样蛋白人源性抗体的制备

目的:应用噬菌体展示及抗体库技术,制备并鉴定β淀粉样蛋白(Aβ)人源性抗体。方法:应用固相筛选方法,以人工合成的Aβ1-15肽为靶标分子,在大容量全合成人源性噬菌体抗体库中筛选抗Aβ人源性抗体,并进行特异性鉴定。结果:经过3轮筛选,单克隆鉴定获得噬菌体抗体F11,竞争性ELISA表明抗体对Aβ1-42的结合位点位于1～15氨基酸残基内,ELISA结果证实抗体特异性良好。结论:以Aβ1-15肽为靶标分子获得了特异性良好的人源性抗体。     

Exploring antibody recognition of sequence space through random-sequence peptide microarrays

A universal platform for efficiently mapping antibody epitopes would be of great use for many applications, ranging from antibody therapeutic development to vaccine design. Here we tested the feasibility of using a random peptide microarray to map antibody epitopes. Although peptide microarrays are physically constrained to ～10(4) peptides per array, compared with 10(8) permitted in library panning approaches such as phage display, they enable a much more high though put and direct measure of binding. Long (20 mer) random sequence peptides were chosen for this study to look at an unbiased sampling of sequence space. This sampling of sequence space is sparse, as an exact epitope sequence is unlikely to appear. Commercial monoclonal antibodies with known linear epitopes or polyclonal antibodies raised against engineered 20-mer peptides were used to evaluate this array as an epitope mapping platform. Remarkably, peptides with the most sequence similarity to known epitopes were only slightly more likely to be recognized by the antibody than other random peptides. We explored the ability of two methods singly and in combination to predict the actual epitope from the random sequence peptides bound. Though the epitopes were not directly evident, subtle motifs were found among the top binding peptides for each antibody. These motifs did have some predictive ability in searching for the known epitopes among a set of decoy sequences. The second approach using a windowing alignment strategy, was able to score known epitopes of monoclonal antibodies well within the test dataset, but did not perform as well on polyclonals. Random peptide microarrays of even limited diversity may serve as a useful tool to prioritize candidates for epitope mapping or antigen identification.     

Production of anti-idiotypic antibodies by immunization with a pair of complementary peptides

Previous investigations have suggested that pairs of peptides specified by complementary RNA sequences (termed complementary peptides) can interact with one another. In the light of this finding, we hypothesized that an antibody directed against a peptide might interact with an antibody against its complementary peptide at the antigen combining site. To address this possibility, polyclonal antibodies against a peptide, Leu-Glu-Arg-Ile-Leu-Leu (LERILL), and its complementary peptide, Glu-Leu-Cys-Asp-Asp-Asp (ELCDDD), were made monospecific by affinity chromatography. Using radioimmunoassays, anti-ELCDDD antibodies were shown to interact with 125I-anti-LERILL antibodies but not with 125I-control antibodies. More importantly, the interaction of the two antibodies could be blocked using either peptide antigen, but not with control peptides. Furthermore, 125I-anti-LERILL binding to LERILL could be blocked with anti-ELCDDD antibody and vice versa. We concluded therefore that antibody/antibody binding occurred at or near the antigen combining site, demonstrating that this interaction was an idiotypic/anti-idiotypic one.     

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。     

Studies on the bacteriophage MS2: XLI. Nature of the azure mutation

Azure (or reverse amber) mutants grow normally on wild-type Escherichia coli but not on host strains harbouring a strong UAG suppressor mutation. Three different bacteriophage MS2 azure mutants obtained by treatment with nitrous acid have been characterized at the nucleotide sequence level. The 3′-end fragment of the ³²P-labelled mutant genomes was isolated by DNA:RNA hybridization and treatment with nuclease S₁, and was analyzed by mini-fingerprinting of the RNA. It is known that the wild-type MS2 polymerase gene ends with a UAG codon, followed seven triplets further by an in-phase UAA triplet. All three azure mutants contained an A → G transition in this UAA second stop codon of the polymerase gene, resulting in a second suppressible UAG (amber) codon. Analysis of revertants demonstrated that the azure mutation can be counteracted either by a true site reversion at the second stop or by the creation of a new stop signal for the polymerase gene, either UAA (ochre) or UGA (opal), before or at the first stop, or beyond the second stop. On the basis of these results, a mechanism for the azure mutation is proposed. Silent mutations (one in the coding region, three in the untranslated 3′-terminal sequence) have also been observed in these phage stocks.     

Cloning, expression and identification by immunohistochemistry of humanized single-chain variable fragment antibody against hepatitis C virus core protein

Expression of single-chain variable fragment (scFv) antibodies on the surface of bacteriophage is widely used to prepare antibodies with pre-defined specificities. A phage antibody library containing the gene for scFv antibody against Hepatitis C virus core protein was panned with core protein immobilized on microtiter plate wells. After five rounds of panning 60 phage clones specific to core protein were obtained and one selected clone was sequenced. It was found that the specifically detected antigen consists of 774bp and is capable of encoding 257 amino acids in the patients but not in healthy persons.     

Immunogenic regions of the GA733-2 tumour-associated antigen recognised by autoantibodies of patients with colorectal carcinoma

The tumour-associated antigen (TAA) GA733-2 is overexpressed by >90% of human colorectal carcinomas (CRC). The antigen has previously been shown to be recognised by B and T cells. The aim of the present study was to define B cell epitopes of GA733-2. Fifteen percent of CRC patients with no previous immunotherapy have recently been shown to elicit an anti-GA733-2 IgG antibody response. Sera of these patients ( n=136) were analysed by enzyme-linked immunosorbent assay (ELISA) for immunoglobulin G (IgG) antibodies against 23 partly overlapping synthetic peptides (18 amino acids: aa) derived from the extracellular domain of GA733-2. An 18-aa long sequence at the N-terminal region of the antigen (peptide 2) was found to be an immunodominant B cell epitope. Fifty percent of the patients had antibodies against peptide 2, while 8% to 9% had antibodies against peptides 1, 4, 7, 8 or 20. In healthy donors ( n=30) antibodies against peptides 2 and 8 were also detected in 13% and 3% of cases respectively, while no antibodies were found against the other peptides and the complete protein. Thirteen percent of CRC patients ( n=30) with no IgG antibodies against the GA733-2 antigen elicited antibodies against peptide 2. The specificity of peptide-reactive sera was verified by inhibition ELISA. The binding of sera to GA733-2 was significantly inhibited by peptides to which CRC sera bound, but not by control peptides. Binding to peptide 2 of sera showing both peptide 2 and GA733-2 reactivity was specifically inhibited by the complete GA733-2 antigen, while binding of peptide 2-reactive sera showing no GA733-2 reactivity was not inhibited. CRC sera interfered with the binding of monoclonal antibody (mAb) 17-1A and mAb C215 that recognise distinct epitopes of GA733-2. No significant correlation was found between the presence of anti-peptide antibodies in CRC patients and clinical stage or overall survival. The results provide additional evidence for immune recognition of CRC by the host.     

Tunable modulation of antibody-antigen interaction by protease cleavage of protein M

While immunoglobulins find ubiquitous use in biotechnology as static binders, recent developments have created proantibodies that enable orthogonal switch-like behavior to antibody function. Previously, peptides with low binding affinity have been genetically fused to antibodies, to proteolytically control binding function by blocking the antigen-binding site. However, development of these artificial blockers requires panning for peptide sequences that reversibly affect antigen affinity for each antibody. Instead, a more general strategy to achieve dynamic control over antibody affinity may be feasible using protein M (ProtM) from Mycoplasma genitalium, a newly identified polyspecific immunity evasion protein that is capable of blocking antigen binding for a wide range of antibodies. Using C-terminus truncation to identify ProtM variants that are still capable of binding to antibodies without the ability to block antigens, we developed a novel and universal biological switch for antibodies. Using a site-specifically placed thrombin cut site, antibody affinity can be modulated by cleavage of the two distinct antibody-binding and antigen-blocking domains of ProtM. Because of the high affinity of ProtM toward a large variety of IgG subtypes, this strategy may be used as a universal approach to create proantibodies that are conditionally activated by disease-specific proteases such as matrix metalloproteinases.     

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.     

抗P-选择蛋白人源性单克隆抗体的制备

目的:获得人源性抗P-选择蛋白(selectin)特异性抗体,为相关疾病治疗奠定基础。方法:在HEK293细胞中真核分泌表达人P-选择蛋白功能性片段,以此蛋白片段作为抗原,利用本室构建的大容量全合成人源性噬菌体抗体库进行筛选,经过3轮固相筛选后,阳性克隆得到富集;将其中富集效果最好的一株单链抗体A1改造成全抗体(IgG1),重组质粒转染H293细胞后,抗体得到表达;表达后在全抗体水平上用ELISA和Western印迹分别验证了A1抗体的特异性,并通过非竞争ELISA方法初步测定这株抗体的亲和力。结果:3轮筛选得到3株特异性噬菌体抗体,其中富集效果最好的单链抗体A1改造成全抗体形式后特异性良好,抗体亲和力Kd=2×10-8 mol/L。结论:筛选得到一株特异性较好的抗P-选择蛋白人源性单克隆抗体A1,其特异性和亲和力较好,有继续开发的价值。     

Inhibition of Cryptosporidium parvum infection of a mammalian cell culture by recombinant scFv antibodies

Two phage display antibody libraries (Tomlinson I and J) were screened against the whole oocysts of Cryptosporidium parvum to select for scFv (single chain variable fragment) antibodies. Three scFv antibodies were selected that bound to C. parvum oocysts as determined by monoclonal phage ELISA. DNA sequencing revealed that clone A11 lacked the majority of its V (H) chain. Clone B10 had a stop codon in the first framework region of the V (H) chain. We changed this stop codon to Gly by site-directed mutagenesis, and designated the variant mutB10. Clone B9 had a complete scFv gene with no internal stop codons. These antibody genes were individually subcloned into the pET-20b expression vector for soluble scFv antibody production. C. parvum infectivity was determined by infection of HCT-8 tissue culture monolayers and quantified by the foci detection method. By incubating C. parvum oocysts with individual scFv antibodies for 1 h at 37 degrees C prior to infecting the HCT-8 cells with the oocyst-scFv mixture, the infectivity of C. parvum was reduced in a dose-dependant manner. At the highest soluble scFv concentration tested (4 nmol), the mean number of infectious foci was reduced by 82%, 73% and 94% for the A11, B9 and mutB10 scFv, respectively. This inhibition of oocyst infectivity was abolished when the scFvs were exposed to boiling water. The results showed that the 3 selected scFvs bound to C. parvum oocysts, and their ability to neutralize infectivity may have potential therapeutic potential against cryptosporidiosis.     

Description of a murine B lymphoma tumor-specific antigen

By using monoclonal antibodies, a tumor-specific antigen (TSA 41.5) was detected on the cell surface of a B lymphoma CH-1 tumor variant, CH-1.1. This antigen is not expressed by normal lymphocytes (spleen cells, lymph node cells, thymocytes, bone marrow cells, or blast cells) of B10.A mice, the host strain of CH-1.1, or by the CH-1 lymphoma. Immunoprecipitation and biochemical characterization of TSA 41.5 with the use of two-dimensional gel electrophoresis showed this antigen to be a surface protein of CH-1.1 cells with an Mr of 80k and pI of 4.6. TSA 41.5 is not related to the murine transferrin receptor, and not to gp70, a viral envelope protein expressed by CH-1.1 cells, shown by comparative peptide map analysis of these three proteins. TSA 41.5 is a surface antigen unique to the CH-1.1 tumor, which is not expressed by the 19 different murine tumor lines that were tested nor by spleen cells of 15 independent mouse strains. In addition, treatment of spleen cells with bacterial lipopolysaccharide did not induce the expression of TSA 41.5. These characteristics of TSA 41.5 make it unlikely to be a product of viruses. Additional evidence against TSA 41.5 being a viral protein was obtained by the observation that antisera against viral proteins could not block the binding of the anti-TSA monoclonal antibody to its antigen. In vitro treatment of CH-1.1 cells with anti-TSA monoclonal antibody specifically inhibited the in vitro growth of the tumor cells in a dose-dependent fashion. The CH-1.1 tumor and monoclonal antibodies could be a useful murine model system for the exploration of the use of monoclonal antibodies for the in vivo treatment of cancer.     

Specific blocking to improve biopanning in biological samples such as serum and hybridoma supernatants

Screening phage-displayed peptide libraries (biopanning) is an important technique for acquiring peptide ligands and for mapping peptide epitopes recognized by antibodies (Ab). In biological samples, other materials, not only contaminants but also natural constituents, often interfere with biopanning. Capture methods use anchoring Abs that reduce the need for purification of the intended panning target from a crude sample. This capture method is analogous to sandwich ELISA. However, when the target molecule concentration is low in the initial mixture, the panning of a captured target often yields epitopes that bind to the capture antibody rather than the target of interest. We have developed a methodology that utilizes specific blocking reagents of the capture Ab to extend the sensitivity and applicability of the capture approach to phage panning. A flowchart is presented to enable the worker to begin panning with the simplest approach and then to employ sandwich capture and specific blocking reagents as necessary.     

Characterization of a high-affinity human antibody with a disulfide bridge in the third complementarity-determining region of the heavy chain

Disulfide bridges are common in the antigen-binding site from sharks (new antigen receptor) and camels (single variable heavy-chain domain, VHH), in which they confer both structural diversity and domain stability. In human antibodies, cysteine residues in the third complementarity-determining region of the heavy chain (CDR-H3) are rare but naturally encoded in the IGHD germline genes. Here, by panning a phage display library designed based on human germline genes and synthetic CDR-H3 regions against a human cytokine, we identified an antibody (M3) containing two cysteine residues in the CDR-H3. It binds the cytokine with high affinity (0.4?nM), recognizes a unique epitope on the antigen, and has a distinct neutralization profile as compared with all other antibodies selected from the library. The two cysteine residues form a disulfide bridge as determined by mass spectrometric peptide mapping. Replacing the cysteines with alanines did not change the solubility and stability of the monoclonal antibody, but binding to the antigen was significantly impaired. Three-dimensional modeling and dynamic simulations were employed to explore how the disulfide bridge influences the conformation of CDR-H3 and binding to the antigen. On the basis of these results, we envision that designing human combinatorial antibody libraries to contain intra-CDR or inter-CDR disulfide bridges could lead to identification of human antibodies with unique binding profiles.