重组抗CD20单克隆抗体ELISA检测新方法的建立

目的:建立一种检测重组抗CD20单克隆抗体的新的ELISA方法,以便快捷、简便、灵敏地检测生物体液中的重组抗CD20单抗。方法:采用双抗夹心ELISA法对重组抗CD20单克隆抗体进行定量检测,包被抗体用猴血清吸附的羊抗人IgG,检测抗体用猴血清吸附的羊抗人IgG-HRP,最后加底物显色剂,终止后在酶标仪450 nm下读数。结果:按照新药临床前药代动力学中方法学确认的要求进行验证,获得了检测重组抗CD20单克隆抗体的高灵敏度和稳定的ELISA方法。结论:该ELISA方法简便、稳定、灵敏度高,可用于重组抗CD20单克隆抗体的检测。     

抗CD52单克隆抗体ADCC转基因测活方法的建立

目的 建立转基因细胞法测定抗CD52单克隆抗体(单抗)的抗体依赖细胞介导的细胞毒性作用(antibody-dependentcell-mediatedcytotoxicity,ADCC)生物学活性检测方法。方法 ①以Ramos细胞系作为靶细胞,以Jurkat-hFcγRⅢa/FcεRIγ-NFAT转基因细胞系作为效应细胞,通过荧光素酶检测系统(Bright-GloTM luciferase Assay System)建立抗CD52单抗的ADCC生物学活性检测方法;②对靶细胞、量效范围、效靶比及诱导时间进行优化并进行方法学验证;③研究建立的方法应用于对不同抗CD52单抗的ADCC生物学活性检测。结果 建立抗CD52单抗的ADCC生物学活性检测方法,抗CD52单抗在该方法中存在量效关系,符合四参数方程:y=(A-D)/[1+(x/C)B]+D;经优化后确定抗体量效范围为起始质量浓度360μg/mL,4倍系列稀释9个稀释度;效靶比为3∶1,诱导时间为6.0h;该方法具有良好的专属性;4个不同稀释组回收率样品经3次测定,相对效价分别为(45.58±4.67)%、(71.61±9.45)%、(122.92±7.92)%和(149.94±14.58)%;对应的回收率分别为(91.16±9.34)%、(95.49±12.60)%、(98.34±6.34)%和(99.96±9.72)%,上述结果的变异系数(coefficientofvariation,CV)均小于15%;且该方法也适用于不同抗CD52单抗的ADCC效应评价。结论 利用转基因细胞法成功建立了抗CD52单抗ADCC生物学活性检测方法,该方法专属性强、准确性高、重复性好,可用于评价抗CD52单抗的ADCC生物学活性。     

基于抗CD20单克隆抗体的2种夹心ELISA法的建立

目的:建立和比较2种灵敏、特异的夹心ELISA方法,用于准确定量检测食蟹猴血浆中重组抗CD20人源化单克隆抗体(rh-anti-CD20zumab)浓度。方法:以rh-anti-CD20zumab为基础,分别用山羊抗人IgG F(ab')2抗体和驴抗人IgG Fc抗体包被96孔酶标板,加入待测样品,均采用HRP标记的猴血清吸附的山羊抗人IgG抗体进行检测,加底物显色,读取D450nm值。结果:建立了2种定量检测rh-anti-CD20zumab的夹心ELISA方法并进行了确证,样品的前处理分别为1∶20和1∶10,方法的线性范围分别为40~5000和40~12 500 ng/mL,定量下限均为40 ng/mL,两者的板内、板间精密度分别小于16.2%和19.4%,准确度分别为-10.3%~16.6%和-14.4%~12.9%。2种方法均具有良好的特异性和稀释线性,且都未出现钩状效应。结论:方法学确证表明,本研究建立的2种ELISA法均符合新生物制品临床前药代动力学研究指导原则的要求,可用于rh-anti-CD20zumab的检测,为后续rh-anti-CD20zumab在食蟹猴体内的药代动力学研究提供了不同的检测方法。     

TT病毒重组蛋白单克隆抗体的制备

采用杂交瘤技术,获得了4株稳定分泌抗TTV重组蛋白的单克隆抗体杂交瘤细胞株,1株属IgG2bλ链、1株属IgG1κ链、2株属IgG2aκ链。4株杂交瘤细胞培养上清液效价为1：80-1：1280,腹水效价为1：32万-1：160万。     

制备抗α-半乳糖苷酶单克隆抗体用于检测B→O血型改造后的微量残留酶

目的:建立一种检测B→O血型改造后残留α-半乳糖苷酶的有效方法。方法:利用重组咖啡豆α-半乳糖苷酶为免疫原制备单克隆抗体,再采用间接ELISA法检测B→O血型改造后残留的工具酶α-半乳糖苷酶的量。结果:最低可检测出的残留酶量约为2.4ng/mL。结论:为B→O血型改造后残留的工具酶的检测提供了有效的方法。     

荧光染料R-藻红蛋白标记小鼠抗人CD4单克隆抗体

以R-藻红蛋白(R-PE)标记小鼠抗人CD4单克隆抗体,形成单色或和用其他荧光染料标记的CD系列单抗组成双色、多色的荧光试剂,应用于流式细胞仪检测分析。用异双功能交联试剂SPDP和SMCC分别活化R-PE和CD4单抗,用DTT使经SPDP活化后的R-PE巯基化,再与用SMCC活化的CD4单抗交联。使用NEM终止交联反应,经Sephacryl S-300柱在AKTA FPLC快速液相色谱系统(简称AKTA)监测下分离纯化。结果用R-PE标记的抗CD4单抗,检测正常人外周血淋巴细胞表面CD4抗原的表达,经流式细胞仪(简称FACS)分析表明,R-PE标记的CD4抗体特异性保持完好,荧光强度较高,还可与用FITC标记的其它CD系列单抗配伍成双标或多标试剂。使用SPDP,SMCC异双功能交联试剂和DTT还原剂,成功地偶联了R-藻红蛋白和CD4单克隆抗体,可应用于流式细胞仪检测分析。     

重组人源化抗CD52单克隆抗体N-糖糖型的分析方法的验证

目的 对重组人源化抗CD52单克隆抗体N-糖糖型的分析方法亲水相互作用液相色谱法进行方法学验证,并根据多批次产品的检测结果制定质量标准。方法 参考《中华人民共和国药典》2020版(三部)通则9101中相关要求及重组人源化抗CD52单克隆抗体的制造与检定规程,对单克隆抗体N-糖糖型的分析方法进行方法学验证,验证项目包括专属性、线性、准确度、精密度、范围和耐用性。对多批次重组人源化抗CD52单克隆抗体产品(≥15批)的N-糖糖型的检测结果进行分析,计算非岩藻糖及半乳糖的相对含量,确定质量标准。结果 空白对照、阴性对照对重组人源化抗CD52单克隆抗体N-糖糖型的分析无干扰;在60～300μg的抗体含量范围内线性良好,r²≥0.99;高、中、低3种抗体含量的回收率均在96%～106%;仪器进样重复性、样品制备重复性及中间精密度均良好,峰面积百分比及保留时间的RSD均≤5%;耐用性考察时各条件下的峰面积百分比及保留时间的RSD均≤5%。对多批次重组人源化抗CD52单克隆抗体的检定结果进行统计分析,确定N-糖糖型分析的质量标准为非岩藻糖相对含量4%～20%,半乳糖相对含量≥2...     

抗牛PrP多肽单克隆抗体的制备及其在牛PrP 检测中的应用

为获得广谱抗哺乳类动物PrP单克隆抗体(monoclonal antibody, McAb), 用牛朊蛋白(prion protein, PrP)多肽(209~228 aa)与匙孔槭血蓝蛋白(keyhole limpet hemocyanin, KLH)偶联物免疫Balb/C小鼠. 经细胞融合和克隆后获得针对上述多肽的杂交瘤细胞株. 分别用Western blot和免疫组化(immunohistochemistry, IHC)的方法检测这些McAbs与重组人(human, Hu)、牛(bovine, Bo)、仓鼠(hamster, Ha)PrP蛋白、牛脑组织中的正常朊蛋白(cellular PrP, PrPc)和致病性朊蛋白(scrapie of prion, PrPSc)的反应性. 本文为制备高效价抗PrP McAb提供了一个简单、易行的方法. 制备的抗体可用于研究哺乳类PrP生物学特性, 检测可传播性海绵样脑病, 特别是对牛海绵样脑病的诊断具有重要意义.     

抗HIV-p24单克隆抗体细胞株的建立及初步应用

拟建立抗HIV-P24蛋白的单克隆抗体细胞株及双抗体夹心法,用于检测艾滋病人血清中的P24抗原。用纯化的基因工程表达的HIV-P24蛋白免疫BALB/c小鼠。取免疫小鼠的脾细胞和小鼠骨髓瘤Sp2/0的细胞融合,有限稀释法克隆细胞,ELISA筛选特异性抗体。结果克隆筛选出12株细胞,初步建立了检测HIV-P24抗原的双抗体夹心酶联免疫吸附试验。本方法为监控艾滋病病毒感染的窗口期和艾滋病病人临床治疗效果提供了检测手段。     

抗吡虫啉单克隆抗体的制备及鉴定

为制备灵敏度高,特异性强的抗吡虫啉单克隆抗体,建立经济、快速、准确的吡虫啉残留免疫学分析方法,采用分子模拟技术分析吡虫啉及其类似农药的电荷分布后,选择1-[6-(2-羧乙硫基-3-吡啶)甲基]-N-硝基-2-咪唑啉亚胺 (H1) 作为免疫半抗原,1-(6-氯-3-吡啶甲基)-3-羧丙基-N-硝基-2-咪唑啉亚胺 (H2) 作为包被半抗原,利用NHS酯法将H1和H2分别与牛血清蛋白 (BSA) 和卵清蛋白 (OVA) 偶联合成免疫原与包被原。免疫BALB/c小鼠后,采用常规杂交瘤技术共获得2株稳定分泌抗吡虫     

表达重组抗CD52单克隆抗体CHO细胞灌流培养基的筛选

目的筛选重组抗CD52单克隆抗体CHO细胞株培养和连续灌流表达用培养基,以提高抗体表达量。方法通过调整原有批培养用培养基中谷氨酰胺和植物水解蛋白,获得5种培养基配比。使用模拟灌注方式进行细胞培养,分析细胞密度、活细胞比率和目标蛋白表达,筛选连续灌流细胞培养和表达用培养基。最后在7 L反应器中采用灌注培养方式对筛选获得的培养基进行验证。结果使用50 mL细胞培养管进行模拟灌注培养时,活细胞比率较高,达到90%以上;CHO细胞在添加谷氨酰胺至4.0 mmol/L和植物水解蛋白至5.0 g/L的批培养用培养基中生长速度最快;在基础培养基中抗体表达量比优化前高15%。20 d培养周期内,优化的培养基在7 L反应器中可以维持CHO细胞密度在(2 727±253)万个/mL,活细胞比率在95%以上。结论通过模拟灌注培养,筛选获得了一种在7 L反应器灌流培养中适宜于重组抗CD52单克隆抗体CHO细胞表达的培养基。     

Evolution of anti-CD20 monoclonal antibody therapeutics in oncology

Approval of an anti-CD20 chimeric monoclonal antibody, rituximab, has revolutionized cancer treatment and also validated CD20 targeting for providing benefit and improvement of overall response rate in B cell malignancies. Although many patients have benefited from the treatment of rituximab, there are still significant numbers of patients who are refractory or develop resistance to the treatment. Here we discuss pre-clinically well-defined potential mechanisms of action for rituximab and review the ways next generation anti-CD20 monoclonal antibodies can potentially exploit them to further enhance the treatment of B cell malignancies. Although the relative importance of each of these mechanism remains to be established in the clinic, well-designed clinical trials will help to define the efficacy and understanding of which effector activity of modified next generation anti-CD20 mAb will be important in the treatment of B-cell malignancies.Key words: CD20, NHL, CLL, monoclonal antibody, next generation anti-CD20 antibodies, ADCC, CDC, ADCP, PCD, rituximab     

Engineering an anti-CD52 antibody for enhanced deamidation stability

ABSTRACT

Deamidation evaluation and mitigation is an important aspect of therapeutic antibody developability assessment. We investigated the structure and function of the Asn-Gly deamidation in a human anti-CD52 IgG1 antibody light chain complementarity-determining region 1, and risk mitigation through protein engineering. Antigen binding affinity was found to decrease about 400-fold when Asn³³ was replaced with an Asp residue to mimic the deamidation product, suggesting significant impacts on antibody function. Other variants made at Asn³³ (N33H, N33Q, N33H, N33R) were also found to result in significant loss of antigen binding affinity. The co-crystal structure of the antigen-binding fragment bound to a CD52 peptide mimetic was solved at 2.2Å (PDB code 6OBD), which revealed that Asn³³ directly interacts with the CD52 phosphate group via a hydrogen bond. Gly³⁴, but sits away from the binding interface, rendering it more amendable to mutagenesis without affecting affinity. Saturation mutants at Gly³⁴ were prepared and subjected to forced deamidation by incubation at elevated pH and temperature. Three mutants (G34R, G34K and G34Q) showed increased resistance to deamidation by LC-MS peptide mapping, while maintaining high binding affinity to CD52 antigen measured by Biacore. A complement -dependent cytotoxicity assay indicated that these mutants function by triggering antibody effector function. This study illustrates the importance of structure-based design and extensive mutagenesis to mitigate antibody developability issues.     

Validation of an automated method for compounding monoclonal antibody patient doses

Automation robots have recently come to the market as an alternative for manual compounding of drugs for intravenous administration. Our aim was to assess whether robotic compounding can be performed with monoclonal antibodies (mAbs) without influencing the aggregation state of the proteins. Three frequently used mAbs were studied: infliximab (Remicade^®, Janssen Biotech) and trastuzumab (Herceptin^®, Roche) in lyophilised form, and bevacizumab (Avastin^®, Roche) as a liquid formulation stored at 2°C to 8°C. The effects of different procedures to prepare the patient doses on antibody aggregation were evaluated. Remicade^® and Herceptin^® were reconstituted both manually and by a robotic arm (i.v.STATION^®, Health Robotics). Additionally, the influence of vigorous shaking during reconstitution was investigated. The effects of rapid aspiration and dispensing on antibody aggregation were investigated for all three mAbs. Aggregation state was assessed by UV-Vis absorbance, 90° light scatter, fluorescence spectroscopy, Nile red fluorescence microscopy, and field flow fractionation without cross and focus flow. Robotic reconstituted samples showed similar findings compared with manual reconstitution if performed exactly according to the summary of product characteristics (SPC). Vials that were vigorously shaken showed a significant increase in aggregates. Similarly, rapid aspiration/dispense cycles resulted in a strong increase in the number and sizes of aggregates for all three mAbs; this result was observed after just one rapid aspiration/dispense cycle. Our study showed that robotic compounding of mAbs is feasible if the robot is exactly programmed according to the SPC, indicating that robotic compounding can be used to achieve reproducible high-quality compounding for delicate formulations.     

A functionally unique anti-CD3 monoclonal antibody cross-reactive with basal keratinocytes

Monoclonal antibodies (mAb) 147, 446, and 454 each recognize different epitopes of CD3. The CD3 epitope recognized by mAb 446 is functionally unique for the T cell. In contrast to mAb 147 and 454, mAb 446 induces modulation of surface CD3 with delayed kinetics and, hence, is impaired in inducing a refractory state in the T cell to subsequent anti-CD3-induced helper function. MAb 446 (but not other anti-CD3 mAb, including mAb 147, 454, OKT3, and anti-Leu4) recognizes a cytoplasmic determinant within basal keratinocytes. Extraction of keratinocytes with nonionic detergent and 2 M NaCl abolished subsequent staining with mAb 446 but enhanced subsequent staining with anti-keratin mAb, suggesting that this cross-reactive determinant is not keratin. Immunoprecipitation of internally labeled keratinocytes with the anti-CD3 mAb 147 and 446 failed to reveal specific bands, whereas these same mAb immunoprecipitated specific bands from internally labeled CD3+ Jurkat cells corresponding to previously identified CD3 subunits, suggesting that the cross-reactive determinant in keratinocytes is also not CD3. The cross-reactivity is not species specific, in that mAb 446 stained a mouse keratinocyte line, nor is it absolutely keratinocyte specific, in that mAb 446 stained one of the two nonkeratinocyte human epithelial cell lines tested. This study raises the possibility that perturbation of unique CD3 epitopes may have unique effects on T cell surface events and subsequent activation and function.     

Different fermentation processes produced variants of an anti-CD52 monoclonal antibody that have divergent in vitro and in vivo characteristics

The anti-CD52 antibody has already been approved for the treatment of patients with resistant chronic lymphocytic leukemia, relapsing-remitting multiple sclerosis, and has demonstrable efficacy against stem cell transplantation rejection. A CHO cell line expressing a humanized anti-CD52 monoclonal antibody (mAb-TH) was cultivated in both fed-batch and perfusion modes, and then purified. The critical quality attributes of these mAb variants were characterized and the pharmacokinetics (PK) properties were investigated. Results showed that the perfusion culture achieved higher productivity, whereas the fed-batch culture produced more aggregates and acid components. Additionally, the perfusion culture produced similar fucose, more galactose and a higher proportion of sialic acid on the anti-CD52 mAb compared to the fed-batch culture. Furthermore, the perfusion process produced anti-CD52 mAb had higher complement-dependent cytotoxicity (CDC) efficacy than that produced by the fed-batch culture, a result probably linked to its higher galactose content. However, antibody produced by fed-batch and perfusion cultures showed similar PK profiles in vivo. In conclusion, perfusion is a more efficient method than fed-batch process in the production of functional anti-CD52 monoclonal antibody. Product quality variants of anti-CD52 mAb were found in different cell culture processes, which demonstrated different physiochemical and biological activities, but comparable PK properties. Whether these observations apply to all mAbs await further investigation.     

A peptide mimetic of an anti-CD4 monoclonal antibody by rational design

The development of rational methods to design 'continuous' sequence mimetics of discontinuous regions of protein sequence has, to now, been only marginally successful. This has been largely due to the difficulty of constraining the recognition elements of a mimetic structure to the relative conformational and spatial orientations present in the parent molecule. Using peptide mapping to determine 'active' antigen recognition residues, molecular modeling, and a molecular dynamics trajectory analysis, we have developed a peptide mimic of an anti-CD4 antibody, containing antigen contact residues from multiple CDRs. The design described is a 27-residue peptide formed by juxtaposition of residues from 5 CDR regions. It displays an affinity for the antigen (CD4) of 0.9nM, compared to 2nM for the parent antibody ST40. Nevertheless, the mimetic shows low biological activity in an anti-retroviral assay.     

庆大霉素单克隆抗体的制备及试剂盒的配制

目的建立庆大霉素直接竞争酶联免疫吸附分析方法。方法应用戊二醛法制备庆大霉素完全抗原,通过杂交瘤技术筛选分泌特异性庆大霉素抗体的杂交瘤细胞株,并建立庆大霉素竞争酶联免疫吸附分析检测方法。结果获得3株能稳定分泌庆大霉素单克隆抗体的杂交瘤细胞株,建立了庆大霉素竞争酶联免疫吸附分析检测方法,该方法操作简单具有良好的线性、特异性和精密度;庆大霉素质量浓度在1.5625～50.0000 ng/mL范围内,呈现良好的线性,r2=0.9913,50%抑制浓度为(IC50)为7.37 ng/mL,检测限(LOD)为1.54 ng/mL,该试剂盒与链霉素等8种药物无交叉反应。结论获得3株能稳定分泌庆大霉素单克隆抗体的杂交瘤细胞株,研制的庆大霉素竞争ELISA检测试剂盒具有良好的线性、特异性和精密度。     

金霉素单克隆抗体的制备及检测方法的建立

采用羰基二咪唑法,将半抗原金霉素(AM)分别与牛血清白蛋白(BSA)和卵清蛋白(OVA)偶联制备金霉素免疫抗原AM-BSA和检测抗原AM-OVA,通过紫外光谱扫描检测偶联产物。采用细胞杂交瘤技术,制备抗金霉素单克隆抗体杂交瘤细胞株,建立了金霉素竞争ELISA检测方法,其灵敏度达到50ng/ml,且呈现良好的线性关系(r=0.9812),并且与其他抗生素无交叉反应。