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。     

重组抗人活化血小板单链抗体-尿激酶原导向溶栓剂的基因构建及表达

为了获得特异性高的导向溶栓药物,应用PCR技术,得到抗人活化血小板单抗(SZ-51)的Fab′基因片段。再用酶切方法,将Fab′中CH1基因片段替换成合成的连接分子(linker)基因,构建成单链抗体基因,并插入到人尿激酶原分泌肽基因及低分子量单链尿激酶(scu-PA-32k)之间,最终构建成重组抗人活化血小板单链抗体-尿激酶原融合蛋白基因。此融合蛋白基因在昆虫细胞中得到表达。纯化的表达产物SDS-PAGE鉴定,其分子量约为60kD,与预期值相符。其比活为9000IU/mg蛋白。ELISA法初步证明此重组的融合蛋白具有与活化血小板抗原结合特异性。     

hTNFRII-Fc融合基因的克隆及在CHO细胞中的表达

构建人肿瘤坏死因子受体II胞外区（TNFRII）和人免疫球蛋白（IgG1）Fc段的融合基因真核表达载体,并在中国仓鼠卵巢细胞（CHO）中表达融合蛋白hTNFRII-Fc。用全合成重叠延伸PCR方法克隆TNFRII胞外区的基因片段,再与（IgG1）Fc段拼接起来形成hTNFRII-Fc融合基因,经HindIII、EcoRI双酶切后插入至pEE14中构建pEE14-TNFRII-Fc真核表达载体,脂质体转染至CHO细胞中进行表达及鉴定。ELISA检测到转染hTNFRII-Fc基因的CHO细胞培养上清中含有hTNFRII-Fc蛋白,SDS-PAGE与Western-blot鉴定证实其为hTNFRII-Fc蛋白,为进一步研究该融合蛋白在CHO细胞稳定表达及应用于类风湿关节炎等自身免疫性疾病临床治疗奠定了一定的研究基础。     

抗人P185^erbB2的scFv—Fc融合蛋白的表达及免疫功能分析

为提高鼠源单抗用于体内治疗的效应功能及降低人抗鼠抗体反应 ,将编码抗人P185 erbB2 单抗轻、重链可变区 (VL、VH)融合构建的单链抗体 (scFv)基因片段与人IgG1的Fc区基因片段融合构建了scFv Fc融合基因 ,并将其克隆到哺乳动物细胞表达载体pCIDN中。用重组载体转染CHO细胞 ,通过G4 18筛选获得稳定高表达克隆。更换无血清培养基培养 ,经重组蛋白质A亲和层析柱纯化scFv Fc融合蛋白。融合蛋白质在还原SDS PAGE中表现为5 2kD的条带 ;与SK BR 3细胞裂解液共培育可特异性地沉淀出P185 erbB2 蛋白 ;FACS分析表明融合蛋白质识别P185 erbB2 蛋白的胞外段 ;ELISA测定融合蛋白质对细胞表面抗原P185 erbB2 的亲和常数为 7.5× 10 -10 (mol/L) -1。构建scFv Fc融合基因 ,将其克隆到表达载体 ,进一步稳定表达抗P185 erbB2 的scFv Fc融合蛋白 ,为进一步的体外、体内研究鼠源单抗治疗效果创造了条件。     

免疫球蛋白G(IgG)分子结构的扫描隧道显微镜观察

把溶于双蒸水的兔IgG铺展在高定向石墨(HOPG)底载上,直接用扫描隧道显微镜(Scanning Tunneling Microscopy,简称STM)在大气环境中观察,得到了IgG分子的表面结构图像。从图像上可清晰地分辨出IgG分子的Fab及Fc片段,片段连接处的"铰链区"以及Fab和F_e片段的某些精细结构(IgG分子功能辖区)。本工作表明STM在研究生物大分子天然结构方面有巨大潜力。     

抗人B7-H1单克隆抗体的制备和鉴定

目的:采用杂交瘤技术制备抗人B7-H1单克隆抗体,并对其进行鉴定。方法:经抗原免疫的小鼠脾细胞与小鼠骨髓瘤细胞以常规方法融合;用间接ELISA法筛选分泌抗体的杂交瘤细胞株;阳性克隆用有限稀释法获得稳定分泌抗人B7-H1单克隆抗体的杂交瘤细胞株;扩增杂交瘤细胞注射进小鼠腹腔后制备腹水;纯化腹水中的单克隆抗体并对其亚型进行鉴定;用间接ELISA法测抗体效价;将肺癌组织制成石蜡切片,用抗人B7-H1抗体进行免疫组化染色。结果:获得1株稳定分泌抗人B7-H1单克隆抗体的杂交瘤细胞株,所分泌的单抗类型为IgG1;抗体效价为1×108,纯化后的抗体含量为6.76g/L;免疫组化实验中,单抗可与肺癌组织表面的B7-H1蛋白特异地结合。结论:制备了人B7-H1单克隆抗体,为B7-H1检测试剂盒的研制奠定了基础。     

丙型肝炎病毒与人IgG,Fc片段的特异性结合

使用亲和捕获PCR法研究丙型肝炎病毒（HCV）和人IgG的相互作用,发现HCV能与IgG及完整的IgGFc片段结合,但不与Fab片段结合。这种结合可以被Fc片段所竞争抑制,而不能被Fab片段所抑制。HCVRNA阴性血浆不能阻断Fc片段与HCV的结合,推测这是一种HCV颗粒与IgGFc片段之间的特异性结合。本研究揭示了HCV与IgG之间的相互作用,探讨了HCV引起免疫复合物疾病的机理及丙型肝炎的慢性化倾向。     

抗体Fc片段特异寡核苷酸配基介导的实时定量免疫PCR

目的:利用小鼠IgG抗体Fc片段高特异、高亲和寡核苷酸配基,构建实时定量免疫PCR检测方法,提高抗体检测的灵敏度。方法:用SELEX技术从随机寡核苷酸文库中筛选抗体Fc片段特异寡核苷酸配基,设计合成信标序列,通过不对称PCR法,制备IgG Fc片段的核酸信标配基分子;32P标记核酸信标配基,采用琼脂糖凝胶阻滞双显色法鉴定核酸信标配基与IgG Fc片段结合的亲和力和特异性;制备IgG Fc特异性寡核苷酸信标配基-抗体复合检测分子,构建小鼠IgG Fc片段特异核酸信标配基介导的实时定量免疫PCR检测方法。结果:制备了IgG Fc片段的核酸信标配基分子;凝胶阻滞放射自显影和考马斯亮蓝二次染色结果显示该核酸信标配基分子与IgG Fc片段具有高度亲和力和活性,而且只与非变性IgG结合,与变性IgG不结合;IgG Fc片段的特异核酸信标配基与IgG结合形成复合检测分子,有效完成了信号传递和实时定量PCR信号放大过程。结论:初步建立了一种全新的核酸信标配基介导的免疫PCR检测方法,可有效提高现有IgG类抗体免疫检测的灵敏度和特异性。     

抗黄曲霉尿酸氧化酶单克隆抗体的制备和初步鉴定

目的:制备抗黄曲霉尿酸氧化酶单克隆抗体。方法:采用杂交瘤技术,获得2株针对重组黄曲霉尿酸氧化酶(rUOX)的杂交瘤细胞McAb17和McAb3;采用盐析和A蛋白亲合层析柱纯化该抗体。结果:McAb17和McAb3的腹水效价达到1∶512000,纯化后获得纯度大于95%的单抗,抗体亚类(型)分别为IgG1/k型和IgG2a/k型;ELISA结果显示制备的单抗与rUOX和Rasburicase(商品化rUOX)可发生特异反应。结论:制备了抗黄曲霉尿酸氧化酶单克隆抗体McAb17和McAb3,为检测rUOX在动物体内的代谢变化提供了良好的实验基础。     

蝙蝠血清IgG的纯化及兔抗蝙蝠IgG酶标抗体的制备

目的纯化蝙蝠血清IgG,制备兔抗蝙蝠IgG酶标抗体。方法采用亲和层析纯化法纯化蝙蝠血清IgG,SDS-PAGE电泳鉴定蝙蝠IgG纯度。免疫大白兔制备兔抗蝙蝠IgG抗血清,免疫双扩散法测定抗血清效价,亲和层析纯化法纯化抗血清IgG。用改良过碘酸钠标记法制备兔抗蝙蝠IgG酶标抗体,直接ELISA和Western blot法对兔抗蝙蝠IgG酶标抗体进行工作浓度测定。结果纯化的蝙蝠血清IgG,其SDS-PAGE测定纯度大于95%;免疫大白兔所制备的抗血清免疫双扩散效价为1∶64;用改良过碘酸钠标记法制备兔抗蝙蝠IgG酶标抗体,其直接ELISA和Western blot工作浓度分别为1∶12800和大于1∶2000。结论制备了蝙蝠血清IgG的抗血清和酶标抗体,为蝙蝠的血清学检测体系提供了技术和资源储备。     

Purification of antibody Fab and F(ab')2 fragments using Gradiflow technology

The Gradiflow, a preparative electrophoresis instrument designed to separate molecules on the basis of their size and charge, was used to purify antibody Fab and F(ab')2 fragments. The method described is charge based, utilizing the difference in the pI between the antibody Fab/F(ab')2 fragments and antibody Fc fragments that occur after enzyme digestion of whole antibody molecules. This method of purification was successful across a range of monoclonal and polyclonal antibodies. In particular, F(ab')2 fragments were purified from a number of mouse monoclonal antibodies (both IgG1 and IgG2a isotypes) and Fab fragments were purified from egg yolk IgY polyclonal antibodies. This is a rapid purification method which has advantages over alternative methods that usually comprise ion exchange and gel filtration chromatography. This method may be applicable to most antibody digest preparations.     

Glycosylation in the Fc domain of IgG increases resistance to proteolytic cleavage by papain

IgG antibodies (Abs) and fragments of IgG Abs are becoming major biotherapeutics to treat an assortment of human diseases. Commonly prepared fragments of IgGs include Fc, Fab, and F(ab')2 fragments, all of which can be made using the sulfhydryl protease papain, although prolonged digestion times and/or excessive amounts of papain typically result in further cleavage of the Fc domain into smaller fragments. During our attempts to use papain to isolate Fc fragments from different IgG monoclonal Abs, it was observed that prior removal of Fc glycans resulted in a faster rate of papain-mediated degradation of the Fc domain. Subsequent time-course experiments comparing glycosylated and deglycosylated versions of IgG antibodies showed that the majority of molecules in a deglycosylated IgG sample were converted into Fab, Fc, and smaller Fc fragments in less than one hour, whereas the original glycosylated IgG required more than two hours to convert into a comparable amount of Fab and Fc fragments. Furthermore, whereas papain digestion converted almost all of a deglycosylated Fc fragment into smaller fragments of approximately 10 and approximately 12 kDa within 4 h, more than 40% of a glycosylated Fc fragment remained intact even after 24 h of digestion. These results indicate that the presence of CH(2) domain glycans in either IgGs or purified Fc fragments increases resistance to papain digestion. Increased sensitivity of non-glycosylated Fc domains to papain is consistent with the Fc domains lacking a defined structure, as exemplified by their inability to bind Fcgamma receptors, since misfolded proteins are often degraded by proteases because of increased accessibility of their proteolytic cleavage sites. Based on these observations it is possible to use papain sensitivity as a means of assessing proper Fc structure of IgG molecules.     

Two routes for production and purification of Fab fragments in biopharmaceutical discovery research: Papain digestion of mAb and transient expression in mammalian cells

Fab (fragment that having the antigen binding site) of a monoclonal antibody (mAb) is widely required in biopharmaceutical research and development. At Centocor, two routes of Fab production and purification were used to enable a variety of research and development efforts, particularly, crystallographic studies of antibody–antigen interactions. One route utilizes papain digestion of an intact monoclonal antibody for Fab fragment production. After digestion, separation of the Fab fragment from the Fc (fragment that crystallizes) and residual intact antibody was achieved using protein A affinity chromatography. In another route, His-tagged Fab fragments were obtained by transient expression of an appropriate construct in mammalian cells, and typical yields are 1–20 mg of Fab fragment per liter of cell culture. The His-tagged Fab fragments were first captured using immobilized metal affinity chromatography (IMAC). To provide high quality protein sample for crystallization, Fabs from either proteolytic digestion or from direct expression were further purified using size-exclusion chromatography (SEC) and/or ion-exchange chromatography (IEC). The purified Fab fragments were characterized by mass spectrometry, SDS–PAGE, dynamic light scattering, and circular dichroism. Crystallization experiments demonstrated that the Fab fragments are of high quality to produce diffraction quality crystals suitable for X-ray crystallographic analysis.     

Cholestatic Liver Disease after Rituximab and Adalimumab and the Possible Role of Cross-Reacting Antibodies to Fab 2 Fragments

Background

Millions of patients are treated with therapeutic monoclonal antibodies (Tmabs) for miscellaneous diseases. We investigated sera from six patients who received immune globulin, from one patient with refractory anti-neutrophil-cytoplasmic antibody (ANCA)-associated granulomatosis with polyangiitis (GPA) who developed two episodes of acute cholestatic liver disease, one after treatment with rituximab and a second after adalimumab and a healthy control group.

Methods

Three sera from the patient and six sera from patients who received immune globulin were analyzed for antibodies to rituximab and adalimumab by ELISA. Additionally, sera from the patients and from nine healthy blood donors were coated with the Fab fragment of an unrelated humanized monoclonal antibody, with human Fc proteins as well as a mouse IgG globulin.

Results

Viral serology for hepatitis A, B, C and autoantibodies specific for autoimmune liver disorders were negative. In all three sera from the patient antibodies to rituximab could be detected, but also antibodies to adalimumab were present even at time points when the patient had not yet received adalimumab, indicating cross reactivity between both substances. Testing against an unrelated human Fab fragment revealed positive results, indicating that the patient had antibodies against human Fab fragments in general. The Fc proteins were negative, and patients’ sera did also not react with mouse IgG globulins. Remarkably, 2 out of 5 patients which were treated with immune globulin had antibodies against human Fab fragments in general whereas in none of the samples from healthy controls antibodies to Fab fragment could be detected.

Conclusion

This is the first study demonstrating cholestatic liver disease induced by two different Tmabs. Cross - reacting antibodies to Fab2 fragments in general are probably involved. Further studies must show if these Fab2 antibodies in general are related with drug-induced side effects and accelerated drug clearance in patients on Tmab therapy.     

Quantitation of a recombinant monoclonal antibody in monkey serum by liquid chromatography-mass spectrometry

A method including protein A purification, limited Lys-C digestion, and mass spectrometry analysis was used in the study to quantify a recombinant monoclonal antibody in cynomolgus monkey serum. The same antibody that was isotopically labeled was used as an internal standard. Interferences from serum proteins were first significantly reduced by protein A purification and then by limited Lys-C digestion of protein A bound IgG, including both monkey and the recombinant IgG. Fab fragment of the recombinant human IgG was analyzed directly by LC–MS, while monkey IgG and the Fc fragment of the recombinant human IgG remained bound to protein A resin. Quantitation was achieved by measuring the peak intensity of the Fab from the recombinant human IgG and comparing it to that of the Fab from the stable isotope-labeled internal standard. The results were in good agreement with the values from ELISA. LC–MS can therefore be used as a complementary approach to ELISA to quantify recombinant monoclonal antibodies in serum for pharmacokinetics studies and it can also be used where specific reagents such as antigens are not readily available for ELISA.     

抗甲肝病毒基因工程单抗分离纯化与鉴定

为克服血源免疫球蛋白制品的不足,开发了抗甲肝病毒基因工程单克隆抗体anti-HAV IgG。用无血清培养基培养rCHO工程细胞株,上清液经过rProtein A SFF亲和层析→脱盐→离子交换层析→超滤换液纯化后,所得anti-HAV IgG纯度达99%以上,比活性约100IU/mg,anti-HAV IgG活性回收率40%。所纯化的anti-HAV IgG分子量150kD,等电点8.4～9.3。免疫印迹实验证实anti-HAV IgG为人源全抗体分子。亲和层析介质rProtein A SFF确实存在亲和配基脱落问题,但通过后续纯化步骤可有效除去。在亲和层析过程中加入高盐清洗步骤,可有效降低宿主DNA残留量水平。对样品中自由巯基含量进行了测定,认为非还原电泳图谱中低分子量条带是由于抗体分子内存在自由巯基引起。用该工艺制备的anti-HAV IgG各项纯度检测指标均达到我国对基因工程产品的质量要求。     

Neutralizing chimeric mouse-human antibodies against Burkholderia pseudomallei protease: expression, purification and characterization

A recombinant Fab monoclonal antibody (Fab) C37, previously obtained by phage display and biopanning of a random antibody fragment library against Burkholderia pseudomallei protease, was expressed in different strains of Escherichia coli. E. coli strain HB2151 was deemed a more suitable host for Fab expression than other E. coli strains when grown in media supplemented with 0.2 % glycerol. The expressed Fab fragment was purified by affinity chromatography on a Protein G-Sepharose column, and the specificity of the recombinant Fab C37 towards B. pseudomallei protease was proven by Western blotting, enzyme-linked immunosorbent assay (ELISA) and by proteolytic activity neutralization. In addition, polyclonal antibodies against B. pseudomallei protease were produced in rabbits immunized with the protease. These were isolated from high titer serum by affinity chromatography on recombinant-Protein A-Sepharose. Purified polyclonal antibody specificity towards B. pseudomallei protease was proven by Western blotting and ELISA.     

Chimeric fab fragments of antibodies to recombinant Ebola virus glycoprotein

Previously, we have determined the nucleotide and amino acid sequences of the variable domains of three mouse monoclonal antibodies specific to the individual epitopes of the Ebola virus glycoprotein: GPE118 (IgG), GPE325 (IgM) and GPE534 (IgG) [1]. In the present paper, chimeric Fab fragments of Fab118, Fab325, and Fab534 antibodies were obtained based on the variable domains of murine antibodies by attaching CH1 and CL constant regions of human kappa-IgG1 to them. The recombinant chimeric Fab fragments were synthesized in the heterologous expression system Escherichia coli, isolated and purified using metal chelate affinity chromatography. The immunochemical properties of the obtained Fab fragments were studied by immunoblotting techniques as well as indirect and competitive ELISA using recombinant Ebola virus proteins: EBOV rGPdTM (recombinant glycoprotein of Ebola hemorrhagic fever virus without the transmembrane domain), NP (nucleoprotein) and VP40 (structural protein). The identity of recombinant chimeric Fab fragments, as well as their specificity to the recombinant glycoprotein of Ebola hemorrhagic fever virus (EBOV GP) was proved. The results of indirect ELISA evidence the absence of immunological cross-reactivity to NP and VP40 proteins of Ebola virus. The dissociation constants of the antigen-antibody complex K _d equal to 5.0, 1.0 and 1.0 nM for Fab118, Fab325 and Fab534, respectively, were determined; they indicate high affinity of the obtained experimental samples to EBOV GP. The epitope specificity of Fab fragments was studied using a panel of commercial neutralizing antibodies. It was found that all studied antibodies to EBOV GP are targeted to different epitopes, while the epitopes of the recombinant chimeric Fab fragments and original murine monoclonal antibodies (mAbs) coincide. All the obtained and studied mAbs to EBOV GP are specific to epitopes that coincide or overlap the epitopes of three commercial neutralizing mAbs to Ebola virus: epitopes Fab118 and Fab325 overlap the epitope of the known commercial mAb h13F6; Fab325 epitope also overlaps mAb c6D8 epitope; Fab534 epitope is located near mAb KZ52 conformational epitope, in the formation of which amino acid residues of GP1 and GP2 domains of EBOV GP are involved.     

Identification of a unique IgG Fc binding site in human intestinal epithelium

In experiments to determine whether serum antibodies in patients with Crohn's disease could be used as probes for detecting potentially etiologic Ag in the patients' tissues, we found that peroxidase (HRP)-labeled IgG from healthy persons, as well as from the patients, bound to normal colonic and small intestinal epithelium, mostly or entirely to goblet cells. The binding was due to a reaction involving the Fc region of IgG because HRP-labeled Fc fragments of IgG bound, but HRP-Fab, HRP-IgA, and HRP-bovine albumin did not, and because binding of HRP-IgG was inhibited competitively by unlabeled IgG or Fc fragments but not by IgG Fab fragments or IgA. These immunohistochemical results were confirmed by ELISA with microtiter wells coated with a sonicated homogenate from human colonocytes. The epithelial IgG Fc binding site was characterized by SDS-PAGE as consisting of a high Mr (greater than 200,000 Da) and a 78,000-Da component. It bound all four subclasses of human IgG and bound aggregated as well as monomeric IgG. It is distinct from known human Fc-gamma R by lack of recognition by mAb to those receptors and differences in affinity for various subclasses of human and murine IgG. This unique IgG Fc binding site might be involved in immunologic defense of the gut, perhaps by mediating reactions between foreign Ag and the contents of goblet cells.     

Monoclonal antibody to human IgG Fc receptors. Cross-linking of receptors induces lysosomal enzyme release and superoxide generation by neutrophils

The monoclonal antibody KuFc79 binds to a determinant on the Fc receptors (Fc gamma R) of human leukocytes. We examined the biologic effects of the interaction of this antibody with Fc gamma R on human neutrophils (PMNL). The univalent Fab fragment of KuFc79 inhibits the formation of rosettes with IgG-sensitized sheep erythrocytes by as much as 91.7%. In other experiments in which PMNL were washed after exposure to Fab of KuFc79, phagocytosis of IgG-sensitized sheep erythrocytes was inhibited by 36%. Fab fragments of other mouse IgG2b monoclonal proteins did not have these effects. When PMNL are exposed to coverslips coated with univalent Fab fragments of this antibody, the Fc gamma R are removed from the surface of the PMNL. Under these conditions, rosetting could be inhibited by 85.4%. We examined cross-linking of receptor bound monoclonal antibody or its Fab fragment by either Protein A or F(ab')2 of an anti-mouse Ig. As much as 31.7% of beta-glucuronidase, a marker for lysosomal enzymes, is specifically released by cross-linking the Fc gamma R on PMNL. The generation of O2- is also induced by specifically cross-linking Fc gamma R with Fab and anti-Fab. The data constitute the first formal demonstration that cross-linking of Fc gamma R on PMNL leads to enzyme release and superoxide generation.