基因工程抗体研究进展

临床治疗中人抗鼠抗体反应的出现使鼠源性单克隆抗体的应用受到了极大的限制。为降低其免疫原性,人们利用基因工程技术对鼠源抗体进行改造,以减少其鼠源成分。简要概述了目前研究比较多的几种基因工程抗体及其临床应用。     

人源化抗体研究历程及发展趋势

单克隆抗体从问世到目前广泛应用于临床,经历了一段曲折的发展历程。其中人源化抗体是一个重要的里程碑,并伴随着一系列重大的技术革新,如PCR技术、抗体库技术、转基因动物等。人源化抗体的形式也从最初的嵌合抗体、改型抗体等逐步发展为今天的人抗体。抗体人源化已经成为治疗性抗体的发展趋势,同时各种抗体衍生物也不断涌现,它们从不同角度克服抗体本身的应用局限,也为治疗人类疾病提供了更多利器。对单克隆抗体进行改造使之应用于临床治疗,不仅需要对抗体效应机制进行更细致深入的研究,同时还有赖于对人类免疫系统调控机制的全面精确认识。     

Stability of murine, chimeric and humanized antibodies against pre-S2 surface antigen of hepatitis B virus

We have constructed a humanized antibody with specificity for the pre-S2 surface antigen of hepatitis B virus (HBV) by grafting the complementarity determining regions (CDRs) of parental murine monoclonal antibody (mAb) into human anti-Sm antibody framework regions. The humanized antibody has a substitution at position 94 in a framework region of the heavy chain variable region, and exhibits the same antigen binding affinity as the parental murine monoclonal and chimeric antibodies. In order to assess the stability of these antibodies, thermal inactivation of the parental, chimeric and humanized antibodies was analyzed. Fifty percent inactivation of the chimeric and humanized antibodies was observed at 63.7 degrees C and 68.7 degrees C, respectively, compared to 55.0 degrees C for murine antibody. The humanized antibody also exhibited increased stability against denaturant. Guanidine-induced unfolding monitored by the changes in fluorescence intensity at 360 nm showed that midpoints of the transition of the chimeric and humanized antibodies were 2.47 M and 2.56 M, respectively, whereas that of the murine antibody was 1.36 M.     

Development of new versions of anti-human CD34 monoclonal antibodies with potentially reduced immunogenicity

Despite the widespread clinical use of CD34 antibodies for the purification of human hematopoietic stem/progenitor cells, all the current anti-human CD34 monoclonal antibodies (mAbs) are murine, which have the potential to elicit human antimouse antibody (HAMA) immune response. In the present study, we developed three new mouse anti-human CD34 mAbs which, respectively, belonged to class I, class II and class III CD34 epitope antibodies. In an attempt to reduce the immunogenicity of these three murine mAbs, their chimeric antibodies, which consisted of mouse antibody variable regions fused genetically to human antibody constant regions, were constructed and characterized. The anti-CD34 chimeric antibodies were shown to possess affinity and specificity similar to that of their respective parental murine antibodies. Due to the potentially better safety profiles, these chimeric antibodies might become alternatives to mouse anti-CD34 antibodies routinely used for clinical application.     

抗体药物的发展与应用

早期抗体药物是鼠源单克隆抗体,存在免疫原性强、半衰期短等问题。历经数十年的发展,抗体药物从最初的鼠源单抗,逐步发展为人鼠嵌合抗体、人源化抗体及全人源化抗体。通过片段重组、位点修饰、药物偶联等方法,科研人员研发了包括抗体融合蛋白、抗体偶联药物、双特异性抗体、小分子抗体片段等形式多样的抗体药物。抗体药物在恶性肿瘤、自身免疫病、感染性疾病的治疗上发挥重要作用。通过对抗体药物人源化历程,不同类型的抗体结构和特点,以及抗体药物在新型冠状病毒肺炎治疗中的应用进行综述,并对抗体药物的发展前景进行展望,以期为我国抗体药物的研发提供参考。     

Anti-glycan monoclonal antibodies: Basic research and clinical applications

Anti-glycan monoclonal antibodies have important applications in human health and basic research. Therapeutic antibodies that recognize cancer- or pathogen-associated glycans have been investigated in numerous clinical trials, resulting in two FDA-approved biopharmaceuticals. Anti-glycan antibodies are also utilized to diagnose, prognosticate, and monitor disease progression, as well as to study the biological roles and expression of glycans. High-quality anti-glycan mAbs are still in limited supply, highlighting the need for new technologies for anti-glycan antibody discovery. This review discusses anti-glycan monoclonal antibodies with applications to basic research, diagnostics, and therapeutics, focusing on recent advances in mAbs targeting cancer- and infectious disease-associated glycans.     

单个B细胞抗体制备技术及应用

单克隆抗体是现代生命科学研究的重要工具,为许多领域的发展作出了不可估量的贡献。随着PCR技术和单克隆抗体技术的发展和成熟,单个B细胞抗体制备技术迅速兴起。该技术能够对单个的抗原特异性B细胞进行抗体基因的体外克隆和表达,保证了轻重链可变区的天然配对,相较于传统的抗体制备技术具有效率高、全人源、基因多样性更丰富等优势。单个B细胞抗体制备技术已成为制备全人抗体的热门方法,同时也促进了包括抗体发生成熟、疫苗保护机制、疫苗开发、肿瘤及自身免疫疾病等免疫学相关研究。文中就单个B细胞抗体制备技术的过程及应用作简要综述。     

Solubility evaluation of murine hybridoma antibodies

The successful development of antibody therapeutics depends on the molecules having properties that are suitable for manufacturing, as well as use by patients. Because high solubility is a desirable property for antibodies, screening for solubility has become an essential step during the early candidate selection process. In considering the screening process, we formed a hypothesis that hybridoma antibodies are filtered by nature to possess high solubility and tested this hypothesis using a large number of murine hybridoma-derived antibodies. Using the cross-interaction chromatography (CIC) method, we screened the solubility of 92 murine hybridoma-derived monoclonal antibodies and found that all of these molecules exhibited CIC profiles that are indicative of high solubility (>100mg/mL). Further investigations revealed that variable region N-linked glycosylation or isoelectric parameters are unlikely to contribute to the high solubility of these antibodies. These results support the general hypothesis that hybridoma monoclonal antibodies are highly soluble.     

治疗性抗体的研究进展

作为一种具有靶向性的生物大分子,单克隆抗体始终是人们关注的热点之一,被广泛用于治疗肿瘤、病毒感染和抗移植排斥等。但鼠源单克隆抗体的临床应用受限于诱导产生人抗鼠抗体、肿瘤渗入量低、亲和力低和半衰期短等。随着分子生物学技术的发展及其向各学科的渗透,通过基因操作技术对抗体进行改造,可使其适用于多种疾病的治疗。抗体人源化已经成为治疗性抗体的发展趋势,同时各种抗体衍生物也不断涌现,它们从不同角度克服了抗体本身的应用局限,也为治疗人类疾病提供了利器。本文简要介绍上述技术的基本原理、特点和治疗性抗体的研究进展。     

Solubility evaluation of murine hybridoma antibodies

The successful development of antibody therapeutics depends on the molecules having properties that are suitable for manufacturing, as well as use by patients. Because high solubility is a desirable property for antibodies, screening for solubility has become an essential step during the early candidate selection process. In considering the screening process, we formed a hypothesis that hybridoma antibodies are filtered by nature to possess high solubility and tested this hypothesis using a large number of murine hybridoma-derived antibodies. Using the cross-interaction chromatography (CIC) method, we screened the solubility of 92 murine hybridoma-derived monoclonal antibodies and found that all of these molecules exhibited CIC profiles that are indicative of high solubility (>100mg/mL). Further investigations revealed that variable region N-linked glycosylation or isoelectric parameters are unlikely to contribute to the high solubility of these antibodies. These results support the general hypothesis that hybridoma monoclonal antibodies are highly soluble.     

A murine monoclonal antibody produced in transgenic plants with plant-specific glycans is not immunogenic in mice

Previous studies have shown that the production of recombinant antibodies in plants is highly efficient and presents numerous therapeutic applications. It is, however, known that plant glycoproteins display different glycosylation patterns to those exhibited by mammalian glycoproteins. Thus, it is important to know if these plant recombinant antibodies could induce undesirable immune responses in mammal; and to date no report has documented the potential immunogenicity of parenterally administered plant recombinant antibodies in animals. In order to answer this question, mice were immunised subcutaneously with a recombinant mouse monoclonal antibody produced in tobacco plants, together with alum as adjuvant. Two control groups were immunised in the same way with either the original murine monoclonal antibody or horseradish peroxidase (a plant glycoprotein). Analyses by direct immunoassay, competition immunoassay and real-time surface plasmon resonance, showed undetectable levels of antibody directed against both the protein and the glycan part of the plant recombinant antibody. These results have a direct relevance for the application of plant recombinant proteins as therapeutic agents and vaccines in humans.     

Large-scale cultivation of hybridoma cells

The demand for large quantities of monoclonal antibodies has increased dramatically over the last few years to supply diagnostic kits for application areas with large markets, and for use in developing applications such as anti-tumour therapies and affinity chromatography. Scale-up from tissue and murine culture has not been a straightforward matter because of the special requirements of mammalian cells in culture. The sensitivity of hybridomas to their environment means that efficient mixing must be obtained at low shear rates, and that oxygen transfer must be adequate for high density cultures without aggressive sparging. The high fraction of serum required to satisfy undefined nutrient requirements needs to be reduced considerably in order to achieve economy of scale. This review discusses the technical barriers to scale-up and reports on successful attempts to produce large volumes of monoclonal antibodies.     

Production and Preliminary Application of Monoclonal Antibodies Against Paulownia Witches' Broom MLO

Monoclonal antibodies against mycoplasma-like organisms (MLO) associated with paulownia witches’broom (PWB) were produced by using partially purified preparations from diseased paulownia. Splenic cells from immunized mice were fused with sp2/0murine myeloma cells. Screened by indirect ELISA using partially purified PWB-MLO and healthy paulownia extracts as detecting antigens, two hybridoma clones that stably secreted specific antibodies against PWB-MLO were obtained from 459 clones of four successful fusions. The monoclonal antibodies were isotyped and determined to be immunoglubin classes IgG2a and IgG3. Antibody titers of ascitic fluids were both over 1.6 × 104 assayed by indirect ELISA. Priliminary application on several specimens proved that they were the monoclonal antibodies against PWB-MLO.     

Epitope specificity of murine and human bactericidal antibodies against PorA P1.7,16 induced with experimental meningococcal group B vaccines

Synthetic peptides derived from the predicted loops 1 and 4 of meningococcal PorA, sero-subtype P1.7,16, were used to study the epitope specificity of murine and human PorA P1.7,16 bactericidal antibodies. The predicted loops 1 and 4 are surface exposed and carry in their apices the sero-subtype epitopes P1.7 (loop 1) or P1.16 (loop 4), respectively. Peptides were synthesized as mono- and multimeric peptides. Murine monoclonal and polyclonal antibodies were induced with meningococcal whole cell preparations. Polyclonal antibodies were evoked in volunteers after one immunization with 50 μg or 100 μg protein of a hexavalent meningococcal PorA vesicle vaccine. The induction of PorA antibodies was determined in ELISA using purified PorA P1.7,16. The epitope specificity of anti-PorA antibodies for both murine and human antibodies could be demonstrated by direct peptide ELISA using overlapping multimeric peptides almost spanning the entire loops 1 or 4 of the protein. The capacity of peptides to inhibit the bactericidal activity of murine and human antibodies was investigated using meningococcal strain H44/76 (B:15:P1.7,16) as a target strain. Bactericidal activities could be inhibited with both monomeric and multimeric peptides derived from epitopes P1.7 and P1.16.     

Establishment and validation of an immunoenzymatic assay to determine mouse IgG levels based on a rat monoclonal antibody

In this paper we describe an immunoenzymatic assay based on a rat monoclonal antibody (Ram kappa) developed to determine mouse IgG concentration, which is widely used for samples obtained on purification processes, like supernatant waste and the content of IgG in the vaccine (rHBsAg). This assay involves the use of a rat antibody-horseradish peroxidase-conjugated for the revealing of the antigen-antibody reaction. The rat antibody was produced in cell culture using a dialysis tube (DT). The immunoassay was standardized following several concepts, such as specificity, precision, and linearity. The result obtained permitted us to replace the use of polyclonal antibodies to determine the kappa light chain mouse antibodies by a rat monoclonal antibody of high sensibility and reproducibility. The assay permitted a reliable measurement of murine kappa Ig up to 0.68 ng/ml and was capable of quantifying 6.25 ng/ml. Due to the high frequency of the kappa light chain in mouse antibodies this system acquires a great application.     

单克隆抗体与多克隆抗体配对ELISA方法比较

以人绒毛膜促性腺激素(HCG)为抗原,制备出对HCG的多克隆抗体和特异性单克隆抗体,并进行抗体纯化和特性分析,利用辣根过氧化物酶(HRP)分别对其进行了标记.采用双抗夹心ELISA试验,探讨了多克隆抗体与单克隆抗体配对的若干事项.结果表明,利用单克隆抗体和酶标多克隆抗体配对,并用含动物血清的稀释液稀释酶标抗体,可实现对检测原的高特异性和高灵敏度检测.     

单克隆抗体及其抗感染作用的研究进展

骨髓瘤细胞和单个B细胞可融合形成杂交瘤细胞,这种细胞分离并克隆后可产生针对单一表位,且结构和功能相同的抗体,即单克隆抗体(monoclonal antibody, mAb)。单克隆抗体发展历程经历了四个阶段。其制备技术也在不断革新与发展。目前单克隆抗体技术发展日益成熟,在疾病治疗与诊断中发挥着关键的作用。单克隆抗体与天然抗体不同,具有效价高、特异性强、交叉反应少、可大量制备,靶向性高等特点。mAb可用于诊断及治疗感染性疾病、自身免疫病以及癌症等。对mAb的发展历程及mAb在抗感染性疾病中的应用进行简要阐述。     

抗重金属汞离子抗体的制备及鉴定

汞、镉、铅等重金属引起的环境污染已在世界范围内造成危害。快速、廉价地监测生境中重金属是减小其对人类及动物危害的先决条件。传统检测方法无法满足高通量的现场检测,建立更快速、更经济的免疫分析法检测汞离子是生产及经济发展的需要。本研究中,报道了汞特异性单克隆抗体的制备与筛选方法和结果。因Hg2+太小以至于不能引起免疫反应,所以用螯合剂(二乙烯三胺五乙酸,DTPA)将金属离子与载体蛋白(匙孔血蓝蛋白,KLH)连接起来。成功合成、鉴定汞复合物抗原后,免疫BALB/c小鼠,通过细胞融合获得了稳定分泌抗体的杂交瘤细胞。用极限稀释法亚克隆,通过ELISA筛选,获得了2株稳定分泌抗汞离子抗体的细胞株(H2H5,H1H8)。小鼠腹腔注射1×107H2H5、H1H8细胞株制备腹水,腹水抗体效价都在1∶51200以上。经鉴定两株杂交瘤均为IgG1亚类,轻链为kappa型且分泌抗体稳定性较好。实验结果为汞离子残留免疫学检测方法的建立提供了技术基础,对提高风险评估工作的效率和质量,保障食品安全有重要现实意义。     

bisFabs: Tools for rapidly screening hybridoma IgGs for their activities as bispecific antibodies

Bispecific antibodies are a growing class of therapeutic molecules. Many of the current bispecific formats require DNA engineering to convert the parental monoclonal antibodies into the final bispecific molecules. We describe here a method to generate bispecific molecules from hybridoma IgGs in 3–4 d using chemical conjugation of antigen-binding fragments (Fabs) (bisFabs). Proteolytic digestion conditions for each IgG isotype were analyzed to optimize the yield and quality of the final conjugates. The resulting bisFabs showed no significant amounts of homodimers or aggregates. The predictive value of murine bisFabs was tested by comparing the T-cell redirected cytotoxic activity of a panel of antibodies in either the bisFab or full-length IgG formats. A variety of antigens with different structures and expression levels was used to extend the comparison to a wide range of binding geometries and antigen densities. The activity observed for different murine bisFabs correlated with those observed for the full-length IgG format across multiple different antigen targets, supporting the use of bisFabs as a screening tool. Our method may also be used for the screening of bispecific antibodies with other mechanisms of action, allowing for a more rapid selection of lead therapeutic candidates.     

A universal combinatorial design of antibody framework to graft distinct CDR sequences: a bioinformatics approach

Antibody (Ab) humanization is crucial to generate clinically relevant biologics from hybridoma-derived monoclonal antibodies (mAbs). In this study, we integrated antibody structural information from the Protein Data Bank with known back-to-mouse mutational data to build a universal consensus of framework positions (10 heavy and 7 light) critical for the preservation of the functional conformation of the Complimentarity Determining Region of antibodies. On the basis of FR consensus, we describe here a universal combinatorial library suitable for humanizing exogenous antibodies by CDR-grafting. The six CDRs of the murine anti-human EGFR Fab M225 were grafted onto a distinct (low FR sequence similarity to M225) human FR sequence that incorporates at the 17 FR consensus positions the permutations of the naturally observed amino acid diversities. Ten clones were selected from the combinatorial library expressing phage-displayed humanized M225 Fabs. Surprisingly, 2 of the 10 clones were found to bind EGFR with stronger affinity than M225. Cell-based assays demonstrated that the 10 selected clones retained epitope specificity by blocking EGFR phosphorylation and thus hindering cellular proliferation. Our results suggest that there is a universal and structurally rigid near-CDR set of FR positions that cooperatively support the binding conformation of CDRs.