人源抗滋养层细胞表面抗原?鄄2基因工程抗体Fab的制备及特性分析

应用噬菌体抗体库技术制备全人源抗滋养层细胞表面抗原-2(Trop-2)特异性Fab抗体片段．抗体库经细胞筛选和固相抗原筛选,获得特异性的阳性克隆．阳性载体经核酸序列分析后,构建工程菌,经IPTG诱导表达,SDS-PAGE和Western blot分析,呈现28 ku和32 ku大小的两条蛋白质条带．Fab分子经流式细胞术、细胞免疫荧光检测,结果表明,Fab能够与BxPc3细胞膜蛋白特异性结合,而与NIH3T3细胞不结合．免疫共沉淀与质谱分析结果表明,该Fab分子能够与Trop-2蛋白特异性结合．免疫组化显示,该抗体可结合胰腺癌细胞膜蛋白,在细胞培养液中加入Fab,能够抑制BxPc3细胞的生长．以上研究结果提示,该抗体有望成为胰腺癌临床影像诊断或治疗的候选分子．     

鼠源性抗雄性特异性抗原噬菌体Fab抗体的制备及分析

利用噬菌体抗体库筛选技术获得抗雄性特异性抗原的噬菌体Fab抗体,首次采用雄鼠脾细胞对鼠源性抗雄性特异性抗原噬菌体Fab抗体库进行3轮亲和富集和2轮雌鼠脾细胞吸附,对筛选后特异性噬菌体Fab抗体进行ELISA分析,重组率鉴定及基因测序分析。结果显示,5次筛选后的15个菌落中有9个能产生抗雄性特异性抗原特异性噬菌体抗体,噬菌体Fab抗体的基因重组率为60%,E5克隆的重链、轻链可变区序列分别属于VH1和VκⅣ基因家族,这为挑选出高亲和力的抗雄性特异性抗原噬菌体Fab抗体奠定了实验基础,将推进雄性特异性抗原及其抗体的研究进程,并为性别控制研究开创新途径。     

具有高亲和力和稳定性的人源性抗PD-L1二硫键稳定Diabody的制备

目的：对天然噬菌体抗体库进行筛选并对抗体进行体外亲和力成熟,获得高亲和力人源性抗PD-L1抗体,然后对该抗体进行二硫键稳定改造,获得具有高亲和力和稳定性的人源性抗PD-L1的二硫键稳定Diabody。方法：首先以PD-L1重组蛋白为抗原在天然噬菌体Fab抗体库中筛选Fab抗体,其次分析结合能力较好的抗PD-L1的Fab抗体可变区基因中的热点,通过对轻链、重链CDR3区的7处热点随机突变构建噬菌体抗体突变库,从中筛选出亲和力得到提高的抗体。最后在抗体骨架区引入两个二硫键,构建二硫键稳定的抗PD-L1的ds-Diabody,并在毕赤酵母GS115中进行表达。结果：该方法筛选获得了6株特异性抗PD-L1噬菌体Fab抗体,对结合能力较好的其中一株抗体CDR3区的热点进行随机突变,成功构建库容为1.14×10⁸ CFU/mL的噬菌体抗体突变库,并从中筛选出亲和力提高约6倍的噬菌体抗体突变株。对该抗体骨架区进行二硫键引入,成功构建与表达二硫键稳定的ds-Diabody。结论：构建的ds-Diabody比Fab抗体与PD-L1结合亲和力高、稳定性好,为药物开发、肿瘤治疗等研究P...     

血清学检测H-Y噬菌体Fab抗体阳性克隆的分析

目的 为分析H-Y噬菌体Fab抗体特异性,筛选用于抗体亲和力提高的H-Y噬菌体Fab抗体阳性克隆.方法 以从噬菌体Fab抗体库中筛选到具有雄性特异性结合活性的阳性克隆A6、A8、E6为基础,通过C57BL/6鼠脾细胞为抗原的ELISA分析3株阳性克隆的特异性,镜下观察亲和力较好的A8阳性克隆ELISA结果,利用生物信息学方法预测分析该克隆的抗体基因可变区序列和结构.结果 ELISA分析显示3株阳性克隆具有雄性特异性,其中A8阳性克隆具备较好的雄性特异性.A8克隆具有免疫球蛋白轻链和重链可变区结构,其重链、轻链可变区分别属于VHI和VκIV基因家族.结论 A8阳性克隆可用于后续的导向筛选和抗体基因改造等研究工作.     

鼠源抗B型肉毒毒素Fab抗体库的构建及初步筛选

目的:应用重组噬菌体抗体库技术制备抗B型肉毒毒素Fab抗体。方法:用重组B型肉毒毒素重链C端片段(BoNTB/Hc)免疫BALB/c小鼠,从其脾淋巴细胞扩增免疫球蛋白Fd段和κ链基因,克隆至表达载体pComb3中,并将抗体Fab段表达于噬菌体表面,建立容量为5.96×106cfu的噬菌体抗体库。以BoNTB/Hc为抗原对所建抗体库进行4轮亲和筛选,获得与B型肉毒毒素特异性结合的克隆,并进行序列测定。结果:构建了抗B型肉毒毒素Fab抗体库,筛选出特异性克隆1个。结论:从鼠源噬菌体免疫抗体库中初步获得了特异性抗B型肉毒毒素的Fab抗体。     

人源抗发热伴血小板减少综合征布尼亚病毒-Gn蛋白重组抗体的研究

为研制人源抗发热伴血小板减少综合征布尼亚病毒(Severe fever with thrombocytopenia syndrome virus,SFTSV)Gn蛋白重组抗体,本研究利用噬菌体表面展示技术,以SFTSV全病毒颗粒和重组表达SFTSV-Gn蛋白为抗原,从人源抗SFTSV Fab噬菌体抗体库中筛选抗SFTSV-Gn蛋白的重组Fab抗体,通过ELISA对Fab抗体的结合特异性进行检测。将Fab抗体基因克隆入哺乳动物细胞表达载体HL51-14,瞬时转染293T细胞获得分泌表达的IgG抗体。通过ELISA、IFA和Western-blotting检测IgG抗体的结合特异性。采用亲和层析纯化IgG抗体,并用微量中和试验检测IgG抗体的中和活性。结果表明经过三轮富集筛选,以SFTSV病毒颗粒为抗原筛选出364株针对SFTS病毒核蛋白Fab抗体,没有筛选出特异性结合Gn蛋白的阳性克隆,而通过Gn蛋白筛选得到8株特异结合Gn蛋白的Fab抗体,其中5株来自Lambda库,3株来自Kappa库。ELISA、IFA和Western-blotting检测证实这8株IgG抗体均能特异性结合Gn蛋白。微量中和试验显示8株新筛抗体没有中和活性,但仍可为后续SFTSV人源单克隆抗体的研究提供借鉴和参考。     

半合成抗体库的构建及抗Tie2 Fab抗体的筛选

构建一个半合成抗体库 ,不经免疫制备人源抗Tie2Fab抗体。通过RT PCR方法 ,从人脐带血淋巴细胞总RNA扩增轻链基因及重链VH段基因 ,将轻链基因插入pCOMb3载体中 ,得人轻链质粒库 ;从HBsAb的Fd段基因制备含有不同长度随机化CDR3的FR3 CDR3 J CH1片段 ,然后将VH段基因与随机化的CDR3融合 ,得到Fd基因片段 ,再将其插入轻链质粒库中 ,得半合成人Fab质粒库。通过多次建库 ,获得总容量为 2× 1 0 7的半合成抗体库。其Fd段和轻链基因的重组率为 5 0 %。经 3轮淘洗 ,从噬菌体抗体库中筛选到与Tie2抗原特异结合的噬菌体克隆。测序确定抗体基因序列     

用硫氰酸盐洗脱法直接测定噬菌体抗体的相对亲和力

抗体与相应抗原的结合可以被硫氰酸盐洗脱而解离,抗体的亲和力越高则解离所需要的硫氰酸盐浓度就越大,这一原理在传统的免疫学实验中被用来测定单克隆抗体或多克隆抗体的相对亲和力。如果证明该原理同样适用于噬菌体抗体库技术,则可以建立一种直接测定噬菌体抗体相对亲和力的简便方法。首先将噬菌体抗体与工作浓度的硫氰酸盐共孵育,以证明这一过程并不影响其后的ELISA反应,然后参照硫氰酸盐洗脱法测定完整抗体分子和Fab段相对亲和力的方法,在ELISA实验中以酶标抗M13为二抗检测了5个单克隆噬菌体抗体的相对亲和力,并与相对应的可溶性Fab段的相对亲和力进行了比较。被测抗体中包括3个克隆的抗角蛋白抗体和2个克隆的抗乙型肝炎表面抗原抗体。结果发现,用硫氰酸盐洗脱法测定5个噬菌体抗体所得到的亲和力排序与测定其相应可溶性Fab段所得结果一致,表明硫氰酸盐洗脱法可作为一种简便快速的方法用来直接测定噬菌体抗体的相对亲和力。     

人源抗狂犬病毒单克隆抗体Fab段基因的获得和表达

运用噬菌体表面呈现（phage display）技术获得了人源抗狂犬病毒糖蛋白基因工程单克隆抗体Fab段基因及其表达。从狂犬病毒PM株Vero细胞疫苗免疫的人抗凝血中分离获得外周淋巴细胞,提取细胞总RNA,通过RTPCR方法,用一组人IgG Fab基因4特异性引物,从合成的cDNA中扩增了一组轻链和重链Fab段基因,将轻链和重链Fab段基因,将轻链和重链先后克隆入噬菌体载体pComb3,成功地建立了抗狂犬病毒抗原的方法,对此抗体库进行富积筛选表达,成功地获得了抗狂犬病毒的人源单抗Fab段基因及其在大肠杆菌中的有效表达,对其中一株单抗G10进行了较为系统的分析,发现它与一株鼠源中和性狂犬病毒糖蛋白特异性单抗存在竞争,证实该单抗能识别狂犬病毒糖蛋白,其序列资料分析表明,该单抗为一株新的抗狂犬病毒人源基因工程抗体。     

日本血吸虫未成熟卯单链抗体库的构建、筛选及初步应用

运用噬菌体展示技术构建日本血吸虫未成熟虫卵可溶性抗原（SIEA）单链抗体（scFv）表达文库,以天然分子候选疫苗SIEA26～28ku为靶抗原筛选SIEA单链抗体库,获得特异性单链抗体．并将该scFv基因亚克隆至原核高效表达载体PET32a,诱导SIEA26-28ku特异性scFv大量表达．随后以此为探针筛选日本血吸虫尾蚴cDNA文库,以期获得SIEA2628ku天然分子候选疫苗相关的编码基因．结果显示,所获得的SIEA26-28ku特异性scFv,表达量高,采用该探针初步筛选出相关基因核糖体蛋白S4．SIEA26-28ku特异性scFv的获得,为进一步筛选、分析鉴定抗日本血吸虫病天然分子候选疫苗SIEA26-28ku的编码基因奠定了基础．     

治疗性单克隆抗体研究进展

杂交瘤技术使鼠源单克隆抗体（鼠单抗）被广泛用于人类疾病的诊断和研究,建立了治疗性抗体的第一个里程碑。但随后出现的人抗鼠抗体等副作用极大地限制了鼠单抗的临床应用。随着生物学技术的发展和抗体基因结构的阐明,应用DNA重组技术和抗体库技术对鼠单抗进行人源化改造,先后出现了嵌合抗体、改型抗体和全人抗体,同时也涌现了各种单抗衍生物,它们从不同角度克服了鼠单抗临床应用的不足,未人类疾病治疗带来新的曙光。我们就上述治疗性抗体人源化的研究进展做简要综述。     

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。     

嵌合抗体研究进展

抗体在疾病诊断,治疗和预防中发挥着重要作用,近几年来将基因工程应用到抗体生产的基因工程抗体技术发展迅速,本就基因工程抗体中的重要组成部分－嵌合抗体的研究进展加以综述。     

Monoclonal antibody therapeutics with up to five specificities: Functional enhancement through fusion of target-specific peptides

The recognition that few human diseases are thoroughly addressed by mono-specific, monoclonal antibodies (mAbs) continues to drive the development of antibody therapeutics with additional specificities and enhanced activity. Historically, efforts to engineer additional antigen recognition into molecules have relied predominantly on the reformatting of immunoglobulin domains. In this report we describe a series of fully functional mAbs to which additional specificities have been imparted through the recombinant fusion of relatively short polypeptides sequences. The sequences are selected for binding to a particular target from combinatorial libraries that express linear, disulfide-constrained, or domain-based structures. The potential for fusion of peptides to the N- and C- termini of both the heavy and light chains affords the bivalent expression of up to four different peptides. The resulting molecules, called zybodies, can gain up to four additional specificities, while retaining the original functionality and specificity of the scaffold antibody. We explore the use of two clinically significant oncology antibodies, trastuzumab and cetuximab, as zybody scaffolds and demonstrate functional enhancements in each case. The affect of fusion position on both peptide and scaffold function is explored, and penta-specific zybodies are demonstrated to simultaneously engage five targets (ErbB2, EGFR, IGF-1R, Ang2 and integrin αvβ3). Bispecific, trastuzumab-based zybodies targeting ErbB2 and Ang2 are shown to exhibit superior efficacy to trastuzumab in an angiogenesis-dependent xenograft tumor model. A cetuximab-based bispecific zybody that targeting EGFR and ErbB3 simultaneously disrupted multiple intracellular signaling pathways; inhibited tumor cell proliferation; and showed efficacy superior to that of cetuximab in a xenograft tumor model.     

Isolation and optimization of camelid single-domain antibodies: Dirk Saerens' work on nanobodies

It is well established that all camelids have unique antibodies circulating in their blood. Unlike antibodies from all other species, these special antibodies are devoid of light chains, and are composed of a heavy chain homodimer. These so-called heavy-chain antibodies (HCAbs) are expressed after a V-D-J rearrangement and require dedicated constant gamma genes. An immune response is raised in these HCAbs following a classical immunization protocol. These HCAbs are easily purified from serum, and their antigen-binding fragment interacts with parts of the target that are less antigenic to conventional antibodies. The antigen binding site of the dromedary HCAb comprises one single domain, referred to as VHH or nanobody (Nb), therefore, a strategy was designed to clone the Nb repertoire of an immunized dromedary and to select the Nb with specificity for our target antigens. The monoclonal Nb is produced well in bacteria, is very stable and highly soluble, and it binds the antigen with high affinity and specificity. Currently, the recombinant Nb has been developed successfully for research purposes, as a probe in biosensors, to diagnose infections, or to treat diseases such as cancer or trypanosomiasis.     

Monoclonal antibodies: technologies for early discovery and engineering

Antibodies are essential in modern life sciences biotechnology. Their architecture and diversity allow for high specificity and affinity to a wide array of biochemicals. Combining monoclonal antibody (mAb) technology with recombinant DNA and protein expression links antibody genotype with phenotype. Yet, the ability to select and screen for high affinity binders from recombinantly-displayed, combinatorial libraries unleashes the true power of mAbs and a flood of clinical applications. The identification of novel antibodies can be accomplished by a myriad of in vitro display technologies from the proven (e.g. phage) to the emerging (e.g. mammalian cell and cell-free) based on affinity binding as well as function. Lead candidates can be further engineered for increased affinity and half-life, reduced immunogenicity and/or enhanced manufacturing, and storage capabilities. This review begins with antibody biology and how the structure and genetic machinery relate to function, diversity, and in vivo affinity maturation and follows with the general requirements of (therapeutic) antibody discovery and engineering with an emphasis on in vitro display technologies. Throughout, we highlight where antibody biology inspires technology development and where high-throughput, “big data” and in silico strategies are playing an increasing role. Antibodies dominate the growing class of targeted therapeutics, alone or as bioconjugates. However, their versatility extends to research, diagnostics, and beyond.     

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。     

噬菌体抗体库技术及其应用研究进展

噬菌体呈现抗体库是近年发展的一项分子生物学新技术,它的建立是抗体技术领域中的一次革命性进展。它以其独特的构建和筛选系统,彻底改变了抗体制备的传统途径,使抗体工程技术进入了一个新的发展阶段,并对生物学领域中许多技术的发展起到了巨大的推动作用。该技术是迄今发展最成熟、应用最广泛的制备抗体技术。我们简要综述此项技术的研究应用进展。     

Structural understanding of stabilization patterns in engineered bispecific Ig‐like antibody molecules

Bispecific immunoglobulin‐like antibodies capable of engaging multiple antigens represent a promising new class of therapeutic agents. Engineering of these molecules requires optimization of the molecular properties of one of the domain components. Here, we present a detailed crystallographic and computational characterization of the stabilization patterns in the lymphotoxin‐beta receptor (LTβR) binding Fv domain of an anti‐LTβR/anti‐TNF‐related apoptosis inducing ligand receptor‐2 (TRAIL‐R2) bispecific immunoglobulin‐like antibody. We further describe a new hierarchical structure‐guided approach toward engineering of antibody‐like molecules to enhance their thermal and chemical stability. Proteins 2009. © 2009 Wiley‐Liss, Inc.