抗CD3基因工程嵌合抗体IgG在哺乳动物细胞中的表达和活性测定

利用基因工程方法将鼠源性抗CD3抗体HIT3a的可变区和人源抗体(IgG)的完整的恒定区连接起来,构建全抗型抗CD3嵌合抗体,该型抗体具有较低的免疫源性可作为免疫抑制剂应用于器官移植,减少受体产生免疫排斥,提高移植器官的存活率。利用PCR方法从抗CD3 ScFv重组噬菌体表达载体pCANTAB 5E上扩增抗CD₃抗体的轻链和重链可变区,将轻链和重链可变区组装到含有人抗体（IgG）恒定区的表达载体中,构建抗CD3嵌合抗体IgG的轻链和重链表达载体PKN100和PG1D105,并用脂质体法共转染CHO细胞。结果证明,抗CD₃嵌合抗体的V_L和V_H与HIT3a抗体的V_L和V_H完全相符,ELISA和Western blot检测结果证实转染细胞的培养上清中含有抗CD₃嵌合抗体IgG的表达,表达产物能与Jurkat细胞结合,并能竞争性抑制HIT3a抗体和Jurkat细胞结合活性,³H-TdR掺入实验表明, 抗CD3嵌合抗体与亲代抗体HIT3a一样,具有促进外周血单核细胞增殖的作用。我室构建的全抗型抗CD3嵌合抗体分子表达载体可在CHO细胞中稳定表达,表达产物有较好生物活性,具有潜在的临床应用价值。     

乙型肝炎病毒pre-S1区中和抗体可变区的原核表达

鼠源单克隆抗体MA18/7是特异识别乙型肝炎病毒 (HBV)pre S1抗原的中和抗体。为表达MA18/7的小分子抗体 ,将MA18/7的重链可变区基因(V_H)和轻链可变区(V_L)基因分别克隆到原核表达载体pTO-T7进行原核表达。结果V_H和V_L均以包涵体的形式高效表达 ,包涵体经过变性、复性及金属离子亲和纯化后获得纯度>90%的重组抗体片段。生物传感器、竞争ELISA和间接ELISA测定均显示 ,V_H 或V_L 均不能结合相应抗原 ,但二者体外混合后可迅速非共价结合形成具有良好活性的可变区抗体Fv,表明MA18/7的抗原结合活性区由重链可变区和轻链可变区共同组成.     

抗CEA单链抗体与链亲和素融合基因的表达

克隆分泌CEA杂交瘤细胞重链可变区（V_H）和轻链可变区（V_L）,以Linker连接V_H及V_L构建抗CEA单链抗体.同时以Spacer连接单链抗体和链亲和素,构建成功单链抗体和链亲和素融合基因,克隆该融合基因至原核表达载体,pET21a(+),经IPTG诱导表达出该双特异性融合蛋白.活性鉴定表明该融合蛋白具有结合CEA及生物素的双特异性.该融合蛋白在生物领域中有较广阔的应用前景.     

基因工程二硫键抗体

二硫键抗体(dsFv)的概念最早出现于1990年,它是将抗体重链可变区(V_H)和轻链可变区(V_L)的各一个氨基酸残基突变为半胱氨酸,通过链间二硫键连接抗体可变区(Fv)的片段抗体.通用的突变位点是重链的44位和轻链的100位或重链的105位和轻链的43位.dsFv最显著的优点是生化性质稳定,能够耐受环境条件的剧烈作用,在血液中的半衰期长达14 d以上,符合临床给药要求.动物实验显示,dsFv-毒素在不对动物造成毒副作用的情况下,可完全抑制肿瘤生长.     

抗松材线虫纤维素酶单链抗体库的构建及筛选

构建鼠源性松材线虫纤维素酶（Bursaphelenchus xylophilus cellulase, BXC）的噬菌体单链抗体库,从中筛选特异性BXC的单链抗体。以BXC为抗原免疫BALB/C小鼠,从脾脏提取总RNA,用RT-PCR技术扩增小鼠抗体重链（V_H）和轻链(V_L)可变区基因。经重叠PCR(SOE-PCR)在体外将V_H和V_L连接成单链抗体(scFv)基因,并克隆到噬菌粒载体pCANTAB5E中,电转化至大肠杆菌TG1,经辅助噬菌体超感染,成功构建了库容为5×10⁴的Anti-BXC单链抗体库,并从该抗体库中初步筛选到了特异性识别BXC的噬菌体单链抗体scFv。将表面展示单链抗体的单克隆噬菌体转化大肠杆菌HB2151进行可溶性表达,SDS-PAGE及Western blot分析结果显示,可溶性scFv获得表达,且与BXC具有结合活性,为松材线虫的检验检疫以及病理学研究奠定了基础。     

抗肿瘤血管三结构域单链抗体VH/L的构建与表达

以本室研制的一株抗肿瘤血管单克隆抗体AA98为基础,采用PCR扩增抗体AA98基因的重链可变区(V_H)和轻链(L),以重链恒定区1(C_H1)5′端12个氨基酸的序列作为连接肽,并将连接肽中的Lys突变为Ser,构建VH连接肽-L三结构域单链抗体。重组VH/L单链抗体在大肠杆菌中得到了高效表达,其表达量占菌体总蛋白质的20%。表达的蛋白质在菌内形成包含体,经凝胶过滤法复性,获得了有抗原结合活性的V_H/L。该三结构域单链抗体的成功构建和复性,为重组抗体片段的研制提供了借鉴。     

噬菌体抗体库的构建及抗乳腺癌细胞单链抗体的筛选

构建抗人乳腺癌细胞MCF 7的噬菌体单链抗体库 ,从中筛选MCF 7细胞特异性单链抗体。用MCF-7细胞免疫BALB C小鼠 ,取脾脏 ,提取总RNA ,用RT-PCR技术扩增小鼠抗体重链 (V_H)和轻链 (V_L)可变区基因 ,经重叠PCR(SOE-PCR) ,在体外将V_H和V_{L连接成单链抗体 (scFv)基因 ,并克隆到噬菌粒载体pCANTAB5E中 ,电转化至大肠杆菌TG1,经辅助噬菌体超感染 ,构建噬菌体单链抗体库。从该抗体库中筛选特异性识别MCF-7细胞的噬菌体单链抗体 ,将表面展示单链抗体的单克隆噬菌体转化大肠杆菌TOP10进行可溶性表达。成功地构建了库容为12×10⁶ 的抗MCF-7乳腺癌细胞的单链抗体库 ,初步筛选到了与MCF 7细胞特异性结合的scFv,Westernblot检测表明 ,在大肠杆菌TOP10中实现了单链抗体可溶性表达}     

抗人CD19单链抗体基因的构建、表达及功能测定

采用RT-PCR方法从分泌抗人类白细胞表面分化抗原CD19单克隆抗体的杂交瘤细胞中克隆出V_H和V_L可变区基因,再通过重叠延伸拼接（spliceoverlap extension）PCR方法在V_H和V_L可变区基因之间引入连接肽(Gly4Ser)3,体外构建抗人CD19单链抗体（抗CD19-ScFv）基因。将其克隆至表达载体PET28a并在大肠杆菌中表达。SDS-PAGE和Westernblot分析结果表明,抗CD19-ScFv在BL21（DE3）菌中获得表达,重组蛋白的相对分子量为27kD,表达产物以不溶性包涵体形式存在,经过溶解包涵体,镍柱亲和层析纯化和体外复性过程,获得了高纯度的单链抗体片段。流式细胞分析结果证实抗CD19ScFv可与人类白细胞表面的分化抗原CD19结合,保留了鼠源性单抗与CD19结合活性。抗人CD19-ScFv的构建与表达,为下一步针对B淋巴系统恶性肿瘤的靶向治疗奠定了基础。     

抗人黑色素瘤单链抗体基因在大肠杆菌中的融合表达

应用RT-PCR技术从分泌抗人黑色素瘤单克隆抗体的杂交瘤细胞HB8760中克隆了抗体轻、重链可变区基因,用(Gly₄Ser)₃连接肽基因将V_H、V_L连接成ScFv基因,并进行了序列测定。ScFv基因全长927bp,其中VH基因长360bp,编码120个氨基酸,V_L基因长324bp,编码108个氨基酸。在大肠杆菌融合表达载体pGEX-4T-1中表达了GST-ScFv融合蛋白,表达产量占菌体总蛋白的29%。凝血酶消化后的产物具有黑色素瘤细胞结合活性。     

抗人CD3单链抗体与改形单域抗体的表达

设计并化学合成含有适当酶切位点及连接肽的寡核苷酸序列,与一定的背景载体连接并改造成适用于单链抗体表达的载体:外分泌型pWAI80和融合蛋白型pROH80从分泌抗人CD3单克隆抗体的杂交瘤细胞UCHT1中,经PCR扩增出轻、重链可变区基因V_H和V_K,并插入上述表达载体中构建成单链抗体基因.通过对鼠OKT3结合位点的结构模拟,并比较人、鼠抗体家族性保守序列,设计出改形OKT3的基因序列.化学法部分合成8个寡核苷酸片段,应用重叠PCR技术扩增出完整改形重链基因V_H,并克隆、酶切和测序鉴定.将所克隆V_H基因插入表达载体pCOMB3和 pGEX-4T-1中进行表达.经 IPTG诱导表达,对表达产物进行SDS-PAGE和 Western blot分析以及 ELISA检测,结果发现分泌型表达产物及 M13基因Ⅲ-V_H改形单域抗体融合蛋白具有与CD3单抗竞争抑制的活性;而融合型单链抗体及改形单域抗体表达产物主要以包涵体形式存在,占细菌总蛋白的 30％左右.     

抗CD20嵌合抗体片段F(ab′)2突变体在大肠杆菌中的高效分泌表达

构建抗CD20嵌合抗体片段F(ab′)₂ 突变体 ,研究其在大肠杆菌中的高效表达及其表达产物的生物学活性。采用PCR法构建抗CD20嵌合抗体片段F(ab′)₂ 突变体 ,并用双脱氧终止法测定DNA序列 ;采用 19L发酵罐高密度发酵抗CD20嵌合抗体片段F(ab′)₂ 突变体 ,采用亲和色谱和分子筛色谱法纯化表达产物 ,并用SDS-PAGE和薄层激光扫描鉴定纯化产物 ;采用活细胞间接免疫荧光法测定纯化产物与靶细胞的结合活性 ;MTT法测定纯化产物对Raji细胞的生长抑制作用 ,并研究其作用机理。DNA序列测定结果表明 ,抗CD20嵌合抗体片段F(ab′)₂ 突变体已成功构建 ,表达可溶性产物的产量达 360mg L ,具有与Raji细胞 (CD20⁺)结合的活性 ,并抑制Raji细胞的生长 ,其作用机理为诱导Raji细胞凋亡。此突变体有望成为治疗非何杰金氏B细胞淋巴瘤的药物。     

Biological activity of anti-CD20 multivalent HPMA copolymer-Fab' conjugates

High-molecular-weight, branched N-(2-hydroxypropyl)methacrylamide (HPMA) copolymers were synthesized and conjugated with Fab' fragments of the anti-CD20 antibody, 1F5. This produced multivalent conjugates with varying valency (amount of Fab' per macromolecule) targeted to the B-cell antigen CD20. The apoptotic activity of the conjugates was screened against several B-cell lymphomas with varied expression levels of CD20 (Raji, Daudi, Ramos, Namalwa, and DG-75). The multivalent conjugates had the strongest activity against cells that had the highest expression of CD20 and failed to demonstrate any measurable activity against lymphomas that did not express the antigen. Furthermore, there was an apparent dose-dependent response to treatment with multivalent conjugates. At optimal valence and concentration, the apoptotic activity of HPMA copolymer-Fab' conjugates superseded that of free anti-CD20 Ab that was hyper-cross-linked with a polyclonal, secondary Ab.     

人4-1BBL胞外区/抗CD20 Fab’融合蛋白的构建和表达

研究共刺激分子4-1BBL在肿瘤靶向治疗方面的作用, 用PCR 和overlap PCR 方法构建人4-1BBL胞外区/抗CD20 Fab’融合蛋白表达载体, 并用双脱氧终止法测定DNA 序列; 采用亲和层析法纯化该产物, 并用SDS-PAGE和HPLC鉴定纯化产物; 采用玫瑰花环试验鉴定纯化产物与靶细胞的结合活性。DNA 序列测定结果表明: 人4-1BBL胞外区/抗CD20 Fab’融合蛋白已构建成功。表达可溶性产物的产量达200 mg/L以上, 纯度较高, 具有与激活的Jurkat (4-1BBL+) 和Raji细胞(CD20+)结合的活性。这将为非何杰金氏淋巴瘤免疫治疗、靶向治疗提供新的思路。     

分子佐剂C3d上调Raji细胞协同刺激分子B7-1和B7-2的表达(简报)

我们在以往研究中,引入选择性增强体液免疫效应的新型分子佐剂C3d,成功构建了重组避孕疫苗hCGB-C3d3,通过免疫Th2型优势的 BALB/c小鼠和,Th1型优势的C57BL/6小鼠,显示分子佐剂C3d在不同品系小鼠均使免疫效应从Th1型细胞免疫向Th2型体液免疫偏倚。     

Expression and purification of two anti-CD19 single chain Fv fragments for targeting of liposomes to CD19-expressing cells

Antibody-targeted liposomal anticancer drugs combine the specificity of antibodies with large payloads of entrapped drugs. We previously showed that liposomal doxorubicin (DXR) targeted via anti-CD19 monoclonal antibodies (mAb) or their Fab' fragments against the B-cell antigen CD19 led to improved therapeutic effects in murine B-cell lymphoma models relative to non-targeted liposomal DXR. We now are examining the use of anti-CD19 single chain fragments of the antibody variable region (scFv) as a targeting moiety, to test the hypothesis that scFv have advantages over full-sized mAb or Fab' fragments. We expressed two different anti-CD19 scFv constructs, HD37-C and HD37-CCH in E. coli, and purified the scFvs using two different methods. The HD37-CCH construct was selected for coupling studies due to its relative stability and activity in comparison to HD37-C. When coupled to liposomes, the HD37-CCH scFv showed increased binding in vitro to CD19-positive Raji cells, compared to non-targeted liposomes. Cytotoxicity data showed that HD37-CCH scFv-targeted liposomes loaded with DXR were more cytotoxic than non-targeted liposomal DXR. Our results suggest that anti-CD19 scFv constructs should be explored further for their potential in treating B-lymphoid leukemias and lymphomas.     

Expression and purification of two anti-CD19 single chain Fv fragments for targeting of liposomes to CD19-expressing cells

Antibody-targeted liposomal anticancer drugs combine the specificity of antibodies with large payloads of entrapped drugs. We previously showed that liposomal doxorubicin (DXR) targeted via anti-CD19 monoclonal antibodies (mAb) or their Fab' fragments against the B-cell antigen CD19 led to improved therapeutic effects in murine B-cell lymphoma models relative to non-targeted liposomal DXR. We now are examining the use of anti-CD19 single chain fragments of the antibody variable region (scFv) as a targeting moiety, to test the hypothesis that scFv have advantages over full-sized mAb or Fab' fragments. We expressed two different anti-CD19 scFv constructs, HD37-C and HD37-CCH in E. coli, and purified the scFvs using two different methods. The HD37-CCH construct was selected for coupling studies due to its relative stability and activity in comparison to HD37-C. When coupled to liposomes, the HD37-CCH scFv showed increased binding in vitro to CD19-positive Raji cells, compared to non-targeted liposomes. Cytotoxicity data showed that HD37-CCH scFv-targeted liposomes loaded with DXR were more cytotoxic than non-targeted liposomal DXR. Our results suggest that anti-CD19 scFv constructs should be explored further for their potential in treating B-lymphoid leukemias and lymphomas.     

Fibroblast Growth Factor Receptor 3 (FGFR3) Associated with the CD20 Antigen Regulates the Rituximab-induced Proliferation Inhibition in B-cell Lymphoma Cells

Rituximab is reported to inhibit the proliferation of lymphoma cells through an unknown CD20-mediated signal transduction pathway. Herein, we investigated cell surface molecules involved in the CD20-mediated signal transduction pathway by using a recently developed technique named enzyme-mediated activation of radical sources. Using this method, we found that under stimulation with rituximab and another anti-CD20 antibody B-Ly1, CD20 was physically associated with fibroblast growth factor receptor 3 (FGFR3) as well as some other receptor tyrosine kinases in Raji cells. However, under stimulation with a noncytotoxic anti-CD20 antibody 2H7, CD20 was not associated with FGFR3 but with the PDGF receptor β. When the tyrosine kinase activity of FGFR3 was inhibited by the chemical inhibitor PD173074 or an siRNA knockdown strategy, the proliferation inhibition by rituximab was attenuated, indicating that FGFR3 participates in the rituximab-dependent signal transduction pathway leading to proliferation inhibition. These observations raise the possibility that concomitant targeted therapy toward FGFR3 might improve the efficacy and safety of the rituximab therapy.     

Binding to CD20 by Anti-B1 Antibody or F(ab')2 is sufficient for induction of apoptosis in B-cell lines

CD20 is a B-cell-specific cell surface protein expressed on mature B lymphocytes and is a target for monoclonal antibody therapy for non-Hodgkin's lymphoma (NHL). Though clear clinical efficacy has been demonstrated with several anti-CD20 antibodies, the mechanisms by which the antibodies activate CD20 and kill cells remain unclear. Proposed mechanisms of action include complement-dependent cytotoxicity (CDC), antibody-dependent cell-mediated cytotoxicity (ADCC), and induction of apoptosis. In this report we compared the activity of two anti-CD20 antibodies, Anti-B1 Antibody (tositumomab) and rituximab (C2B8), in a variety of cellular assays using a panel of B-cell lines. Anti-B1 Antibody showed a low level of activity in a CDC assay against complement-sensitive B-cell lines, Ramos and Daudi. We found that there is an inverse correlation between the expression of CD55 and CD59 and CDC mediated by either Anti-B1 Antibody or rituximab. Rituximab was more potent at inducing CDC when compared to Anti-B1 Antibody. Using Raji cells as target cells and human peripheral blood leukocytes as effector cells, Anti-B1 Antibody was a potent inducer of ADCC. The activities of Anti-B1 Antibody and rituximab were nearly identical in the ADCC assay. In addition, Anti-B1 Antibody showed direct induction of apoptosis in all B-cell lines tested. In general, crosslinking Anti-B1 Antibody with a goat anti-mouse Ig did not further enhance the percentage of cells undergoing apoptosis. Importantly, a F(ab')(2) fragment of Anti-B1 Antibody induced apoptosis, while the Fab fragment did not, indicating that the Fc region was not required and dimerization of CD20 may be sufficient for induction of apoptosis. In contrast, rituximab, which binds to an overlapping epitope on CD20 with a three-fold lower affinity than Anti-B1 Antibody, did not efficiently induce apoptosis in the cell lines tested in the absence of crosslinking. In conclusion, these two anti-CD20 antibodies have overlapping, but distinct mechanisms of action on B-cell lines.     

Functional Fv fragment of an antibody specific for CD28: Fv-mediated co-stimulation of T cells

The most predominant co-stimulation pathway, which is critical for T cell activation and proliferation, is the CD28-B7 pathway. The anti-CD28 monoclonal antibody (mAb) also provides a co-stimulatory signal to T cells. In order to construct a functional Fv fragment (complex of VH and VL domains) of anti-CD28 antibody using a bacterial expression system, cDNA encoding the variable regions of immunoglobulin from 15E8 hybridoma cells was cloned and expressed in Escherichia coli. The Fv fragment was obtained as a soluble protein from the periplasmic fraction and showed a binding pattern similar to parental IgG. The Fv fragment induced proliferation of peripheral blood mononuclear cells in the presence of anti-CD3 or anti-CD2 mAb and enhanced anti-tumor activity of anti-MUC1x(anti)-CD3 bispecific antibody when tested with lymphokine-activated killer cells with T cell phenotype. Thus, the anti-CD28 Fv fragment will be promising not only for the study of co-stimulation, but also for cancer immunotherapy.     

Induction of calcium flux and enhancement of cytolytic activity in natural killer cells by cross-linking of the sheep erythrocyte binding protein (CD2) and the Fc-receptor (CD16)

Binding of the anti-cluster of differentiation (CD) 2 monoclonal antibody 9-1 causes an increase in the concentration of cytoplasmic-free calcium ([Ca2+]i) in cultured CD3-/CD16+ natural killer (NK) cells. This response did not occur in cultured CD3+/CD16- cytotoxic T lymphocytes (CTL). Anti-CD16 antibodies could partially block the calcium response when NK cells were stimulated with intact antibody 9-1, and antigen-binding fragment F(ab')2 of antibody 9-1 did not produce a calcium response. Thus an interaction of the 9-1 antibody with CD16 Fc receptors was required for the functional effect. The dual interaction of antibody 9-1 with both CD2 and CD16 was demonstrated by comodulation experiments. The cytolytic activity of cultured NK cells was increased by antibody 9-1 but not by F(ab')2 fragments of antibody 9-1. The enhanced lytic activity was blocked by anti-CD16 antibody, anti-CD18 antibody, and anti-CD2 antibodies that do not block the binding of antibody 9-1. This pattern was distinct from antibody-dependent cell-mediated cytotoxicity which was blocked only by the anti-CD16 antibody. Thus antibody 9-1 enhanced cytotoxicity by activating effector cells. There was no enhancement of lytic activity when F(ab')2 of antibody 9-1 were cross-linked with a polyclonal antiglobulin, even though [Ca2+]i was increased. These results show that induction of a [Ca2+]i response is not sufficient to enhance lytic activity in NK cells, and suggest that signals delivered through CD16 are necessary.