混合抗体的亲和色谱分离策略

乳腺生物反应器可以高效表达重组人单克隆抗体,但是目标产品与乳液原料中的牛抗体性质、结构非常类似,分离难度很大。本文对牛抗体和重组人抗体的种属差异进行了分析,并在此基础上制定了新型分离策略,采取Protein A亲和色谱和免疫亲和色谱来解决混合抗体的分离问题,并讨论了色谱洗脱模式对分离效果的影响。结果表明,Protein A亲和色谱结合梯度洗脱可以有效地纯化得到混合抗体,但是难以彻底分离重组人抗体和牛抗体;相比之下,使用Protein A亲和色谱结合置换色谱模式可以更加高效地分离混合抗体,最终可以得到纯度高达95%以上的重组人抗体,回收率可达95%以上。免疫亲和色谱同样可以有效地分离纯化重组单克隆抗体,且其通用性更强,可以应用于任何动物乳腺表达重组人抗体的分离纯化中。     

Enzyme-amplified protein microarray and a fluidic renewable surface fluorescence immunoassay for botulinum neurotoxin detection using high-affinity recombinant antibodies

Two immunoassay platforms were developed for either the sensitive or rapid detection of botulinum neurotoxin A (BoNT/A), using high-affinity recombinant monoclonal antibodies against the receptor binding domain of the heavy chain of BoNT/A. These antibodies also bind the same epitopes of the receptor binding domain present on a nontoxic recombinant heavy chain fragment used for assay development and testing in the current study. An enzyme-linked immunosorbent assay (ELISA) microarray using tyramide amplification for localized labeling was developed for the specific and sensitive detection of BoNT. This assay has the sensitivity to detect BoNT in buffer and blood plasma samples down to 14 fM (1.4 pg mL⁻¹). Three capture antibodies and one antibody combination were compared in the development of this assay. Using a selected pair from the same set of recombinant monoclonal antibodies, a renewable surface microcolumn sensor was developed for the rapid detection of BoNT/A in an automated fluidic system. The ELISA microarray assay, because of its sensitivity, offers a screening test with detection limits comparable to the mouse bioassay, with results available in hours instead of days. The renewable surface assay is less sensitive but much faster, providing results in less than 10 min.     

Characterization of recombinant antibodies for detection of TNT and its derivatives

Diverse recombinant immunoreagents specific for TNT-derivatives were tested in different assay forms in order to analyze their specificity and sensitivity. Performance of immunoassays was based on TNP-protein conjugates immobilization on a solid surface. In this work, the detection limit for TNT-analog TNP-Tris was 250 fmol or 87 pg mL⁻¹ (87 ppt), which represents the most sensitive assay published until now, regarding the detection of recombinant antibodies.     

Recombinant antibodies for environmental analysis

Initial steps of antibody engineering in the late eighties revolutionized the technology of antibody production, particularly in the area of immunotherapy and diagnostics. Hallmarks that seemed to be out of reach for a long time are now the state of the art, e.g. tailoring of antibodies to match particular needs or by-passing immunization by use of antibody libraries. Despite the apparent benefits of recombinant antibody technologies, this field has been opened up hesitantly for other applications. This review addresses the development of recombinant antibody synthesis in environmental analysis. Examples are given of the molecular evolution of pesticide antibodies and their application for the analysis of real samples.     

Relationship between human IgG structure and retention time in hydroxyapatite chromatography with sodium chloride gradient elution

Accurate prediction of the elution tendency of monoclonal antibodies in column chromatography would be beneficial for the efficient setup of purification procedures. Hydroxyapatite chromatography experiments using 37 recombinant human monoclonal antibodies were performed by sodium chloride gradient elution with 5 mM sodium phosphate to correlate the retention times with antibody structures (subclass and light‐chain isotypes). The contribution of metal affinity interactions in the interaction of antibodies with hydroxyapatite was investigated by (i) eliminating 5 mM sodium phosphate in buffers, (ii) comparing sodium chloride versus sodium phosphate gradient elutions, and (iii) using IgG₄ antibodies with a leucine→glutamate mutation. By using antibodies of different subclasses but with identical Fab regions, the elution behavior in sodium chloride elution could be classified by subclass and type of light chain. It is considered that the retention of monoclonal antibodies to hydroxyapatite is affected by the cooperation of phosphoryl cation exchange and metal affinity interactions. The contribution of the metal affinity interactions is greater in the sodium chloride gradient elution method than in the sodium phosphate gradient elution method.     

Relationship between human IgG structure and retention time in hydroxyapatite chromatography with sodium‐phosphate gradient elution

The aim of this study was to classify the retention time of recombinant human monoclonal antibodies (rhMAbs) in hydroxyapatite chromatography with sodium‐phosphate gradient elution according to their physicochemical properties. We analyzed 37 rhMAbs and found that (i) the structures of both the constant and variable regions affected retention time, (ii) the number of basic amino acid residues in the variable region, particularly in the heavy chain, correlated well with retention time, and (iii) this correlation was more pronounced (e.g. r²=0.87 for 18 κ IgG₁ rhMAbs) when the surface accessibility of those residues are taken into account. These findings provide a useful guide for investigators and purification‐process developers working with monoclonal antibodies.     

Production of polyclonal antibodies directed to recombinant methionyl bovine somatotropin

The administration of recombinant methionyl bovine somatotropin (rMbST) to dairy cows to increase milk yield remains a common practice in many countries including the USA, Brazil, Mexico, South Africa and Korea, whereas it has been forbidden within the European Union (EU) since 1999. A rapid screening immunoanalytical method capable of the unequivocal determination of rMbST in milk would be highly desirable in order to effectively monitor compliance with the EU-wide ban for home-made or imported dairy products. For decades, the production of specific antibodies for this recombinant isoform of bovine somatotropin (bST) has remained elusive, due to the high degree of sequence homology between both counterparts (e.g. methionine for rMbST in substitution of alanine in bST at the N-terminus). In this study, we compared several immunizing strategies for the production of specific polyclonal antibodies (pAbs), based on the use of the full-length recombinant protein, an rMbST N-terminus peptide fragment and a multiple antigen peptide (MAP) which consists of an oligomeric branching lysine core attached to the first two N-terminus amino acids of rMbST, methionine and phenylalanine (MF-MAP). The immunization with KLH-conjugated MF-MAP led to the production of the pAb with the highest rMbST/bST recognition ratio amongst the generated battery of antibodies. The pAb exhibited a specific binding ability to rMbST in a competitive antigen-coated ELISA format, which avidity was further improved after purification by rMbST N-terminus peptide-based affinity chromatography. These results suggest that immunodiscrimination between structurally related proteins can be achieved using immuno-enhanced immunogens such as MAPs.     

Fast purification of trace vitellogenin from Chinese rare minnow using protein A-immobilized antibody

Vitellogenin (Vtg) is a highly responsive biomarker for environmental exposure to various estrogenically active compounds. Here we present a simple, fast, mild, and stable immobilization of anti-Vtg antibody, and demonstrate its powerful applications for preconcentration and purification of fish Vtg proteins, allowing for the monitoring and screening of environmental exposure to estrogenically active compounds. In this immobilization method, rabbit antiserum containing a specific polyclonal antibody against Vtg was directly immobilized on an antibody-binding Staphylococcal protein A matrix (SpA) without the need for prior purification. Under the unique elution conditions, the Vtg protein can be eluted out alone without any leaked specific antibody. The developed method was further used to purify Vtg from whole-body homogenate of Chinese rare minnow. Compared with previous purification methods, the isolated Vtg fraction by this method displays higher purity and well-preserved structure integrity. Moreover, our method is eight times faster. The simple one-step protein A-based specific antibody immobilization and its associated elution strategy may be extended to a number of antibodies for various application purposes, highlighting the paramount advantages over traditional immunoprecipitation and covalent immobilization of antibodies, and suggesting a wide range of promising applications in environmental monitoring and proteome analysis.     

Mimotopes for Mycotoxins Diagnosis Based on Random Peptides or Recombinant Antibodies from Phage Library

Mycotoxins, the small size secondary metabolites of fungi, have posed a threat to the safety of medicine, food and public health. Therefore, it is essential to create sensitive and effective determination of mycotoxins. Based on the special affinity between antibody and antigen, immunoassay has been proved to be a powerful technology for the detection of small analytes. However, the tedious preparation and instability of conventional antibodies restrict its application on easy and fast mycotoxins detection. By virtue of simplicity, ease of use, and lower cost, phage display library provides novel choices for antibodies or hapten conjugates, and lead random peptide or recombinant antibody to becoming the promising and environmental friendly immune-reagents in the next generation of immunoassays. This review briefly describes the latest developments on mycotoxins detection using M13 phage display, mainly focusing on the recent applications of phage display technology employed in mycotoxins detection, including the introduction of phage and phage display, the types of phage displayed peptide/recombinant antibody library, random peptides/recombinant antibodies-based immunoassays, as well as simultaneous determination of multiple mycotoxins.     

Peptide phage display as a tool for drug discovery: targeting membrane receptors

Ligands selected from phage-displayed random peptide libraries tend to be directed to biologically relevant sites on the surface of the target protein. Consequently, peptides derived from library screenings often modulate the target protein's activity in vitro and in vivo and can be used as lead compounds in drug design and as alternatives to antibodies for target validation in both genomics and drug discovery. This review discusses the use of phage display to identify membrane receptor modulators with agonistic or antagonistic activities. Because isolating or producing recombinant membrane proteins for use as target molecules in library screening is often impossible, innovative selection strategies such as panning against whole cells or tissues, recombinant receptor ectodomains, or neutralizing antibodies to endogenous binding partners were devised. Prominent examples from a two-decade history of peptide phage display will be presented, focusing on the design of affinity selection experiments, methods for improving the initial hits, and applications of the identified peptides.     

Isolation and characterization of an anti-recombinant erythropoietin single-chain antibody fragment using a phage display antibody library

The production of a large amount of specific antibodies against erythropoietin (EPO) is necessary for both clinical treatment and doping control. However, the weak immunogenicity of EPO and the side effects of excessive injection make the conventional immunological protocol rather inefficient and time-consuming. In this study, a single-chain antibody fragment of variable region (scFv) against recombinant human erythropoietin (rHuEPO) was produced after three rounds of panning a phage display antibody library. The selected scFv-B₂ was expressed in soluble form in Escherichia coli DH5α F′ and purified by His-bond nickel affinity chromatography with a yield of about 1–2 mg of antibody in 1 L of the culture supernatant. The molecular weight of the scFv was estimated to be 29 kDa by sodium dodecyl sulfate polyacrylamide gel electrophoresis and the affinity constant was found to be 1.0×10⁸ L mol⁻¹ based on a competitive indirect enzyme-linked immunosorbent assay (CI-ELISA). The potential ability of the scFvs for immunopurification of rHuEPO from related sample was demonstrated by using a double-antibody sandwich ELISA. The reported method is a very powerful tool to produce specific antibodies for rHuEPO detection demands.     

Phage display for the generation of antibodies for proteome research, diagnostics and therapy

Twenty years after its development, antibody phage display using filamentous bacteriophage represents the most successful in vitro antibody selection technology. Initially, its development was encouraged by the unique possibility of directly generating recombinant human antibodies for therapy. Today, antibody phage display has been developed as a robust technology offering great potential for automation. Generation of monospecific binders provides a valuable tool for proteome research, leading to highly enhanced throughput and reduced costs. This review presents the phage display technology, application areas of antibodies in research, diagnostics and therapy and the use of antibody phage display for these applications.     

A mini-review and perspective on multicyclic peptide mimics of antibodies

This review gave a brief introduction on recent development in monocyclic and multicyclic peptide mimics of antibodies and provides a perspective on screening and design of multicyclic peptide mimics of antibodies in the future.     

Organic Nanocarriers for Bevacizumab Delivery: An Overview of Development,Characterization and Applications

Bevacizumab (BCZ) is a recombinant humanized monoclonal antibody against the vascular endothelial growth factor, which is involved in the angiogenesis process. Pathologic angiogenesis is observed in several diseases including ophthalmic disorders and cancer. The multiple administrations of BCZ can cause adverse effects. In this way, the development of controlled release systems for BCZ delivery can promote the modification of drug pharmacokinetics and, consequently, decrease the dose, toxicity, and cost due to improved efficacy. This review highlights BCZ formulated in organic nanoparticles providing an overview of the physicochemical characterization and in vitro and in vivo biological evaluations. Moreover, the main advantages and limitations of the different approaches are discussed. Despite difficulties in working with antibodies, those nanocarriers provided advantages in BCZ protection against degradation guaranteeing bioactivity maintenance.     

Molecularly imprinted polymers-based sensors for bisphenol-A: Recent developments and applications in environmental,food and biomedical analysis

Bisphenol A (BPA) is a well-known endocrine-disrupting industrial compound that is found throughout many aspects of our daily life; from the water we drink and the food we eat to the babies’ bottles and children’s plastic toys. Chronic exposure to BPA may result in some severe medical issues which account for the great importance of its monitoring and removal from everyday products. The use of molecularly imprinted polymers (MIPs) for that purpose has acquired a lot of traction in recent decades. MIPs are artificial antibodies with selective recognition cavities for specifically targeted substances. They are created using a variety of synthetic methods and employed in numerous types of sensors to be used in a wide range of applications. In this review, we focus on the different production methods of MIPs and the varied types of electrochemical and optical sensors that employed MIPs to detect and analyze BPA. Finally, the broad variety of applications of MIPs in environmental, foodstuff, and biological samples are thoroughly examined. Future expected trends and prospective developments are also assessed.     

Environmental Analysis Using Antibody and Receptor Based Techniques

Abstract

Immunochemical analysis relies on the selective binding of antibodies to defined targets such as environmental compounds. Commercial applications in the environmental field are still restricted to a limited number of immunoassays and a few immunochromatographic applications. The main barrier to a broader exploitation is seen in the generation of a sufficient number of antibodies within an acceptable time period. Recombinant technologies are expected to eventually replace the circumstantial approach to obtain new Abs by new immunizations. Examples for recombinant singlechain fragments (scFv) and antigen binding fragments (Fab) directed against herbicidal s-triazines are given. If antibodies are replaced by receptors and other functional ligands, biological effects monitoring becomes available. As an example an enzyme-linked receptor assay (ELRA) for endocrine disruptors providing estrogen equivalents is presented. Finally, the concept of bioresponse-linked instrumental analysis is introduced for the tight coupling of effect monitoring to chemical analysis. In the first step, analyte binding by functional biomolecules is recorded to provide binding equivalents. The second step is targeted at chemical analysis of bioeffective analytes bound to the functional biomolecules.     

Determining nanomaterials in food

Nanotechnology has emerged as one of the most innovative technologies and has the potential to improve food quality and safety. However, there are a few studies demonstrating that nanomaterials (NMs) are not inherently benign.This review highlights some current applications of NMs in food, food additives and food-contact materials, and reviews analytical approaches suitable to address food-safety issues related to nanotechnology.We start with a preliminary discussion on the current regulatory situation with respect to nanotechnology in relation to foods. We cover sample preparation, imaging techniques (e.g., electron microscopy, scanning electron microscopy and X-ray microscopy), separation methods (e.g., field-flow fractionation and chromatographic techniques) and detection or characterization techniques (e.g., light scattering, Raman spectroscopy and mass spectrometry). We also show the first applications of the analysis of NMs in food matrices.     

Synthetic Antibody-Rhamnose Cluster Conjugates Show Potent Complement-Dependent Cell Killing by Recruiting Natural Antibodies

Monoclonal antibodies (mAbs) are one of the most rapidly growing drug classes used for the treatment of cancer, infectious and autoimmune diseases. Complement-dependent cytotoxicity (CDC) is one of the effector functions for antibodies to deplete target cells. We report here an efficient chemoenzymatic synthesis of structurally well-defined conjugates of a monoclonal antibody with a rhamnose- and an αGal trisaccharide-cluster to recruit natural anti-rhamnose and anti-αGal antibodies, respectively, to enhance the CDC-dependent targeted cell killing. The synthesis was achieved by using a modular antibody Fc-glycan remodeling method that includes site-specific chemoenzymatic Fc-glycan functionalization and subsequent click conjugation of synthetic rhamnose- and αGal trisaccharide-cluster to provide the respective homogeneous antibody conjugates. Cell-based assays indicated that the antibody-rhamnose cluster conjugates could mediate potent CDC activity for targeted cancer cell killing and showed much more potent efficacy than the antibody-αGal trisaccharide cluster conjugates for CDC effects.     

Preparation and Properties of Monoclonal Antibodies to Recombinant HBsAg Produced by Silkworm Larvae

Monoclonal antibodies to recombinant HBsAg produced by silkworm (Bombyx mori) larvae were prepared. The cross reactivity of the prepared antibodies was studied by solid-phase enzyme-linked immmunosorbent assay. It has been found that the prepared antibodies interact with recombinant and plasma HBsAg. __________ Translated from Khimiya Prirodnykh Soedinenii, No. 5, pp. 474–476, September–October, 2005.     

Antibody Interactions with Ricinus communis Agglutinins Studied by Biolayer Interferometry

Two related agglutinins are present in the seeds of Ricinus communis (castor): ricin, a dichain ribosome-inactivating protein and Ricinus communis agglutinin-1, a much less toxic tetrameric hemagglutinin. The immunochemical analysis of these agglutinins is of special interest because ricin toxicity has resulted in both accidental and intentional poisonings, while it has also provided a potential cancer chemotherapeutic in the form of an immunoconjugate. We previously characterized a panel of monoclonal antibodies (mAbs) for the analysis of potential contamination with ricin in several food matrices. In this study, an optical sensing technique, biolayer interferometry (BLI), was used to study the binding of two mAbs to the agglutinins. MAbs were immobilized on sensors with amine-reactive, Fc-binding, and streptavidin-coated tips to study the interactions with the agglutinins and with ricin A- and B-chains in solution. The kinetically determined equilibrium dissociation constants generally agreed with the relative binding observed in ELISA, although binding was less predictable for the isolated ricin chains. BLI analysis of kinetic constants for mAb 1797 was not affected by nonfat milk (0.5% by volume). BLI provides a useful method to characterize the binding of antibodies, with the potential for immunodiagnostic applications in food matrices.