产生人抗体的转染色体动物研究进展

现已证明,应用抗体治疗疾病是一种非常成功的方法。单克隆抗体的生产使免疫治疗达到一个新水平,但鼠源单抗在治疗人体疾病方面有很多问题,而人源化抗体可以解决这些问题。目前抗体人源化已由鼠嵌合抗体发展到了转基因动物表达完全人抗体阶段,而人类人工染色体(HAC)载体的发展和微细胞介导的转染色体技术使得产生携带人类免疫球蛋白基因位点的转染色体动物成为可能。通过HAC将人的免疫球蛋白基因转入后,这类转染色体动物可以产生大量人源化多克隆抗体,这对预防及治疗疾病,甚至防御生物武器都有很重要的作用。转染色体技术可以使动物携带大而复杂的人类基因或基因簇,这些转基因动物有助于研究人类基因组在体内的功能作用,并用于各种疾病研究和生产药物蛋白。     

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。     

单克隆抗体的研究进展

单克隆抗体是一种由骨髓瘤细胞和带有抗体的B淋巴细胞结合形成的杂交瘤细胞,简称单抗。首先,本文对单克隆抗体的研究发展历程进行了分析和探讨,指出单克隆抗体的发展历程包括鼠源性单抗、嵌合抗体、人源化抗体以及人源性抗体这四大阶段,分别对其优缺点进行了说明;接下来,又对单克隆抗体在临床上的应用进行了说明,从疾病诊断方面及疾病的治疗两方面进行探讨。     

抗乙型脑炎病毒人源化单链抗体的构建及其表达

单克隆抗体以其特异性强、均～性好的特点在疾病治疗中已显示了良好的应用前景,但由f目前所用单抗多为鼠源性抗体,进行治疗时,由f多次使用或多剂量使用,会刺激人体产生抗鼠抗体（HAMA）的排斥反应,这不仅减弱了单抗的治疗效果,而且还会使人体产生其它副反应,从而阻碍了单抗治疗的进程。抗体工程技术的发展,使人们可以利用分子生物学手段对抗体进行人源化改造,这不仅降低了抗体中的鼠源成份,可以使鼠源抗体的免疫原性减弱,有利于抗体的临床应用。本文利用表面重塑法对抗乙脑抗体可变区基因进行了人源化改造。1材料与方法工．三…     

人源抗体制备及临床应用研究进展

与常规治疗药物相比,抗体药物具有靶向性强、特异性好等优点,其作为一类重要的治疗性药物,近年来在临床中的应用逐渐增多,为疾病的治疗提供了新的选择,应用范围逐渐从肿瘤、自身免疫性疾病及慢性炎症扩展到心血管和感染性等疾病中。人源抗体的全部结构是由人类抗体基因所编码的,因此避免了异种蛋白长期应用引起的不良反应,加之人源抗体制备技术的不断发展完善,使其逐渐成为治疗性抗体研发的首要选择。综述了近年来治疗性人源抗体的主要制备技术及其在临床中应用的最新进展,同时探讨了人源抗体制备技术的不足之处,以期为人源抗体的发展提供借鉴和思路。     

用于治疗的人源化抗体

抗体治疗癌症、自身免疫紊乱、病毒和细菌感染是具有很大的可能性.抗体可以中和微生物及其毒素,破坏癌细胞以及调节其免疫体系.鼠单抗是比较容易生产,但是对于应用治疗,受到严重的限制,因为它在患者体内所产生免疫原性.人的单抗可以有较好地治疗功能,但且很难生产.一种可能的解决方法就是使用遗传工程技术构建人源性     

人源化抗体制备及其应用研究进展

伴随着一系列重大生物技术(如PCR技术、抗体库技术、转基因动物技术等)的发展,抗体技术从最初的嵌合抗体、改型抗体逐渐发展为今天的人源化抗体。人源化抗体在治疗肿瘤、自身免疫性疾病和器官移植等方面已经显示出独特的优势和良好的应用前景。介绍了人源化抗体的构建及其表达系统,并对其临床应用进行了展望。     

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。     

治疗用单抗制剂的研究进展

杂交瘤技术建立 2 0多年来 ,单抗走过了漫长而又曲折的历程 ,从最初的完全鼠源单抗 ,经含不同程度鼠源成份的人鼠嵌合单抗、人源化单抗 ,现已发展为完全人源单抗。抗体的人源化技术和噬菌体展示技术等技术的发展 ,使单抗从诊断工具变为有效的治疗药物 ,被人们誉为“生物魔弹”。鉴于单克隆抗体 (单抗 )对相应的抗原决定簇具有高度特异性以及抗体的均一性等特性 ,近2 0多年来单抗作为疾病诊断剂以及生物学研究试剂已得到广泛的应用 ,但作为治疗剂的应用进程则十分缓慢。近两年来 ,单抗作为治疗制品 ,获得了迅速的进展。     

治疗用单抗制剂的研究进展

杂交瘤技术建立20多年来,单抗走过了漫长而又曲折的历程,从最初的完全鼠源单抗,经含不同程度鼠源成份的人鼠嵌合单抗,人源化单抗,现已发展为完全人源单抗,抗体的人源化技术和噬菌体展示技术等技术的发展,使单抗从诊断工具变为有效的治疗药物,被人们誉为“生物魔弹”,鉴于单克隆抗体（单抗）对相应的抗原决定簇具有高度特异性以及抗体的均一性等特性,近20多年来单抗作为疾病诊断剂以及生物学研究试剂已得到广泛的应用,但作为治疗剂的应用进程则十分缓慢,近两年来,单抗作为治疗制品,获得了迅速的进展。     

A novel human anti-interleukin-1β neutralizing monoclonal antibody showing in vivo efficacy

The pro-inflammatory cytokine interleukin (IL)-1β is a clinical target in many conditions involving dysregulation of the immune system; therapeutics that block IL-1β have been approved to treat diseases such as rheumatoid arthritis (RA), neonatal onset multisystem inflammatory diseases, cryopyrin-associated periodic syndromes, active systemic juvenile idiopathic arthritis. Here, we report the generation and engineering of a new fully human antibody that binds tightly to IL-1β with a neutralization potency more than 10 times higher than that of the marketed antibody canakinumab. After affinity maturation, the derived antibody shows a >30-fold increased affinity to human IL-1β compared with its parent antibody. This anti-human IL-1β IgG also cross-reacts with mouse and monkey IL-1β, hence facilitating preclinical development. In a number of mouse models, this antibody efficiently reduced or abolished signs of disease associated with IL-1β pathology. Due to its high affinity for the cytokine and its potency both in vitro and in vivo, we propose that this novel fully human anti-IL-1β monoclonal antibody is a promising therapeutic candidate and a potential alternative to the current therapeutic arsenal.     

重组抗体药物研究进展及应用

重组抗体药物的发展经历了鼠源单克隆抗体（McAb）、人 鼠嵌合抗体、人源化抗体和全人抗体等阶段,目前初步应用于抗肿瘤、抗自身免疫病、抗感染等领域。保持和提高抗体的亲和力、降低抗体的免疫原性是抗体药物基因工程改造的两大原则。在嵌合抗体成功的基础上,通过CDR移植、表面修饰、抗体库以及转基因鼠技术,逐步提高人源化程度至100%。然而,实验室水平的研究结果与实际应用仍然存在一定差距。就重组抗体药物的基本概况、现存的问题与可能的解决办法以及在肿瘤、病毒性疾病和阿尔茨海默病治疗上的应用情况等进行了综述。     

Rabbit immune repertoires as sources for therapeutic monoclonal antibodies: the impact of kappa allotype-correlated variation in cysteine content on antibody libraries selected by phage display

The rabbit immune repertoire has long been a rich source of diagnostic polyclonal antibodies. Now it also holds great promise as a source of therapeutic monoclonal antibodies. On the basis of phage display technology, we recently reported the first humanization of a rabbit monoclonal antibody. The allotypic diversity of rabbit immunoglobulins prompted us to compare different rabbit immune repertoires for the generation and humanization of monoclonal antibodies that bind with strong affinity to antigens involved in tumor angiogenesis. In particular, we evaluated the diversity of unselected and selected chimeric rabbit/human Fab libraries that were derived from different kappa light chain allotypes. Most rabbit light chains have an extra disulfide bridge that links the variable and constant domains in addition to the two intrachain disulfide bridges shared with mouse and human kappa light chains. Here we evaluate the impact of this increased disulfide bridge complexity on the generation and selection of chimeric rabbit/human Fab libraries. We demonstrate that rabbits with mutant bas and wild-type parental b9 allotypes are excellent sources for therapeutic monoclonal antibodies. Featured among the selected clones with b9 allotype is a rabbit/human Fab that binds with a dissociation constant of 1nM to both human and mouse Tie-2, which will facilitate its evaluation in mouse models of human cancer. Examination of 228 new rabbit antibody sequences allowed for a comprehensive comparison of the LCDR3 and HCDR3 length diversity in rabbits. This study revealed that rabbits exhibit an HCDR3 length distribution more closely related to human antibodies than mouse antibodies.     

A novel human anti-interleukin-1β neutralizing monoclonal antibody showing in vivo efficacy

The pro-inflammatory cytokine interleukin (IL)-1β is a clinical target in many conditions involving dysregulation of the immune system; therapeutics that block IL-1β have been approved to treat diseases such as rheumatoid arthritis (RA), neonatal onset multisystem inflammatory diseases, cryopyrin-associated periodic syndromes, active systemic juvenile idiopathic arthritis. Here, we report the generation and engineering of a new fully human antibody that binds tightly to IL-1β with a neutralization potency more than 10 times higher than that of the marketed antibody canakinumab. After affinity maturation, the derived antibody shows a >30-fold increased affinity to human IL-1β compared with its parent antibody. This anti-human IL-1β IgG also cross-reacts with mouse and monkey IL-1β, hence facilitating preclinical development. In a number of mouse models, this antibody efficiently reduced or abolished signs of disease associated with IL-1β pathology. Due to its high affinity for the cytokine and its potency both in vitro and in vivo, we propose that this novel fully human anti-IL-1β monoclonal antibody is a promising therapeutic candidate and a potential alternative to the current therapeutic arsenal.     

人IL17-RD胞外区真核表达及其单克隆抗体的制备

为了进一步研究白介素17受体D (IL-17RD) 在IL-17信号的调节作用,探索是否可以通过单克隆抗体阻断IL-17RD介导的IL-17信号通路而缓解自身免疫疾病,利用昆虫表达载体从Sf9细胞中表达纯化人IL-17RD-ECD蛋白,免疫Balb/C小鼠30 d,取小鼠脾脏细胞并与小鼠骨髓瘤细胞SP2/0进行融合,应用有限稀释法进行筛选,经过克隆化后筛选到一株能稳定分泌抗IL-17RD-ECD的杂交瘤细胞株1F8。经过初步鉴定,该细胞株分泌的抗体类型为IgG1+kappa类,经过Western blot     

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.     

Pichia pastoris酵母中表达人源中和性抗甲型肝炎病毒scFv-Fc融合抗体的研究

为了探讨人源抗甲型肝炎（甲肝）病毒scFv—Fc融合抗体在酵母中的表达特性,将获得的人源抗甲肝病毒中和性单链可变区抗体（scFv抗体）基因克隆入含信号肽及人IgG1Fc抗体基因的酵母细胞表达载体中,获得了一株中和性人源抗甲肝病毒pPiscFv—FcHA16融合抗体的分泌表达,并对表达产物进行了纯化。同时对表达产物的生物学特性进行了一系列鉴定。表达的pPiscFv—FcHA16融合抗体为具有不同糖基化形式的同源二聚体,与相应的CHO细胞表达的IgG抗体相比,pPiscFv—FcHA16融合抗体仍保持很好的抗原结合活性,以及与中和性鼠抗甲肝病毒单克隆抗体的竞争抑制能力。同时也保持了对甲肝病毒的体外中和活性。这些结果表明,在酵母中表达的单链可变区（scFv）与IgG1Fc区的融合抗体具有很好的生物学活性,有希望用做体外诊断,用纯化相应的抗原,或者可能用于体内预防与治疗。     

In vivo targeting of antibody fragments to the nervous system for Alzheimer's disease immunotherapy and molecular imaging of amyloid plaques

Targeting therapeutic or diagnostic proteins to the nervous system is limited by the presence of the blood-brain barrier. We report that a F(ab')(2) fragment of a monoclonal antibody against fibrillar human Abeta42 that is polyamine (p)-modified has increased permeability at the blood-brain barrier, comparable binding to the antigen, and comparable in vitro binding to amyloid plaques in Alzheimer's disease (AD) transgenic mouse brain sections. Intravenous injection of the pF(ab')(2)4.1 in the AD transgenic mouse demonstrated efficient targeting to amyloid plaques throughout the brain, whereas the unmodified fragment did not. Removal of the Fc portion of this antibody derivative will minimize the inflammatory response and cerebral hemorrhaging associated with passive immunization and provide increased therapeutic potential for treating AD. Coupling contrast agents/radioisotopes might facilitate the molecular imaging of amyloid plaques with magnetic resonance imaging/positron emission tomography. The efficient delivery of immunoglobulin G fragments may also have important applications to other neurodegenerative disorders or for the generalized targeting of nervous system antigens.     

Detection of minor immunological differences among human "universal-type" alkaline phosphatases

Two clones of monoclonal antibodies against swine alkaline phosphatase (ALPase; orthophosphoric monoester phosphohydrolase, alkaline optimum, EC 3.1.3.1), which were useful in distinguishing human kidney and bone ALPases from liver ALPase, were successfully raised in mice. On the other hand, polyclonal antibody cross-reacted not only with human kidney ALPase but also with all other human universal type ALPases. The difference in cross-reactivity of monoclonal and polyclonal antibodies may be caused by the specific antigenicity of human enzymes. The monoclonal antibodies were able to recognize minor heterogeneity that could not be distinguished by their enzymatic properties. The present monoclonal antibody preparations will be utilized for clinical as well as basic investigations to detect minor heterogeneity among universal-type ALPases.