1组曲霉单克隆抗体的制备与鉴定

目的制备并鉴定一组抗曲霉不同抗原的单克隆抗体。方法采用烟曲霉细胞壁抗原成分、分泌抗原和灭活分生孢子,分别免疫BALB／c小鼠,制备单克隆抗体,免疫荧光法鉴定单克隆抗体与曲霉属和念珠菌属抗原的交叉反应。结果获得29株稳定分泌抗曲霉单抗的杂交瘤细胞株,其中用烟曲霉细胞壁抗原成分免疫获得11株,用分泌抗原免疫获得13株,用孢子免疫获得5株;Ig亚类鉴定,11个克隆株为IgG1亚类,3个克隆株为IgG3,15个克隆株为IgM。免疫荧光法鉴定29株单抗特异性识别烟曲霉细胞壁抗原,与其他曲霉抗原有交叉反应。结论29株单克隆抗体,对于建立侵袭性曲霉感染早期诊断方法、筛选曲霉保护性抗体以及研究抗体保护机制奠定了实验基础。     

人凝血因子Ⅶ单克隆抗体的制备与鉴定

目的：制备抗人凝血因子Ⅶ单克隆抗体并鉴定其特性。方法：应用杂交瘤融合技术,以重组人凝血因子Ⅶ为抗原免疫BALB／c小鼠;取免疫小鼠的脾细胞与Sp2／0骨髓瘤细胞融合,经间接ELISA法筛选、融合细胞有限稀释法克隆、克隆化杂交瘤细胞株的亚类鉴定等方法筛选出单克隆抗体杂交瘤细胞株,并对单克隆抗体的特异性进行鉴定;用杂交瘤细胞株诱生小鼠腹水,应用蛋白A亲和层析法进行单抗的纯化。结果：获得了3株可稳定分泌单克隆抗体的杂交瘤细胞3E8、3D2和1C5,诱生的腹水效价分别为1：1×10^7、1：1×10^6和1：1×10^6;亚类鉴定表明388为IgG2a,其余2株均为IgGl;特异性鉴定显示它们与多种血浆蛋白均无交叉反应,表明单抗是特异的;经过亲和层析,获得了纯化的单抗。结论：获得了特异性的人凝血因子Ⅶ单克隆抗体,为建立人凝血因子Ⅶ检测及纯化方法奠定了基础。     

天花粉蛋白分子的抗原决定簇研究(英文)

为了研究抗原结构和功能之间的关系,我们用天花粉蛋白作抗原,制备了16株分泌抗天花粉蛋白特异性单克隆抗体的杂交瘤细胞系,其中包括5株IgE杂交瘤细胞系。用这些单克隆抗体同天花粉蛋白进行抗体竞争结合试验,结果表明:16种单抗之间可产生不同程度的竞争,竞争率从0—100%不等。按照竞争的情况,16种单抗可以分成4个不同的组,即TE 1,1B 1,3A 12,4B 5组,分别识别4个可区分开的抗原决定簇区。值得注意的是TE1组包括了所有5种IgE单克隆抗体(以及另外两种IgG 1单克隆抗体),这一结果提示TE1组单克隆抗体识别的抗原决定簇区可能以某种方式介入了小鼠IgE抗体应答的过程。     

幽门螺杆菌尿素酶B单克隆抗体的制备与鉴定

目的:制备稳定分泌抗幽门螺杆菌尿素酶B单克隆抗体(mAb)的杂交瘤细胞系,并对其分泌的mAb进行鉴定。方法:用初步纯化的重组幽门螺杆菌尿素酶B免疫BALB/c小鼠,利用杂交瘤技术制备抗尿素酶B的mAb,用间接ELISA检测mAb的特异性和亲和力,检测mAb腹水效价,鉴定Ig亚类并测定其抗原决定簇。结果:获得8株能稳定分泌抗尿素酶B的mAb杂交瘤细胞系,这8株单抗与能产生尿素酶的小肠结肠耶尔森氏菌、肺炎克雷伯氏菌和普通变形杆菌均无交叉反应,相对亲和力为1.13×10-8～4.66×10-10,腹水mAb效价可达2×104～3.2×105。其中2株单抗属IgG1亚类,3株单抗属IgG2a亚类。8株单抗分属于3种不同的抗原决定簇。结论:获得了IgG1和IgG2a类型的针对3种不同抗原决定簇的特异性幽门螺杆菌尿素酶B的mAb,为进一步用于幽门螺杆菌的临床诊断和实验研究创造了条件。     

活化相关分泌蛋白1单克隆抗体的制备及其在保守结构域鉴定中的应用

目的:制备重组活化相关分泌蛋白1(ASP-1)的单克隆抗体,并用其鉴定保守结构域。方法:用原核表达并纯化的重组ASP-1不加佐剂免疫BALB/c小鼠,采用杂交瘤技术及有限稀释传代法筛选稳定分泌特异性抗体的杂交瘤细胞株,制备单抗腹水后用间接ELISA进行抗体特异性鉴定和效价检测,利用肽结合ELISA和Western印迹鉴定单抗识别的保守结构域。结果:获得5株能稳定分泌抗ASP-1单克隆抗体的杂交瘤细胞株,且5株单抗的识别区域均为21~28氨基酸残基的保守性结构域。结论:制备了抗ASP-1的单克隆抗体,为深入研究ASP-1佐剂的活性功能区及作用机制提供了有效工具。     

鼠抗衣原体属抗原单克隆抗体的研制

本文利用杂交瘤技术,成功地建立了３株稳定分泌小鼠抗衣原体属脂多糖抗原单克隆抗体的杂交瘤细胞。实验结果表明,３株单抗均为ＩｇＭ类,特异性强,识别相似抗原位点,为今后的应用打下了基础。     

牛血清白蛋白单克隆抗体杂交瘤细胞株的建立及鉴定

用牛血清白蛋白(BSA)免疫BALB/c小鼠,取其脾细胞与小鼠骨髓瘤细胞SP2/0进行融合,培养上清经过双抗体夹心法检测初步筛选分泌鼠IgG的杂交瘤细胞,将此种杂交瘤细胞注射小鼠产生的腹水用间接ELISA法筛选,获得4株能稳定分泌抗BSA单克隆抗体的杂交瘤细胞株,分别命名为2A5、3A3、3G6、4A8。鉴定结果显示,2A5细胞分泌IgG2a/κ,其余3株细胞分泌IgG1/κ;纯化后4株腹水单抗的纯度达90%以上,对BSA的ELISA滴度均可达到1∶100000以上;4株单抗均不与人以及马、猪、羊、兔、豚鼠等血清发生交叉反应;W estern B lotting试验证明4株单抗均识别分子量为68000的BSA;用间接ELISA法测定4株单抗相对亲和力及相对敏感度大小依次为3A3>2A5>3G6>4A8;杂交瘤细胞株连续培养3个月以及冻存半年后复苏,细胞生长良好,杂交瘤细胞分泌的抗体效价稳定。     

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。     

抗发热伴血小板减少综合征病毒结构蛋白单克隆抗体的制备和功能分析

为制备抗发热伴血小板减少综合征病毒(Severe fever with thrombocytopenia syndrome bunyavirus,SFTSV)结构蛋白的单克隆抗体,本研究用灭活纯化的SFTSV病毒颗粒免疫BALB/c小鼠,利用杂交瘤技术获得分别分泌抗糖蛋白单抗和核蛋白单抗的杂交瘤细胞株。用免疫荧光法和免疫沉淀方法对制备的单克隆抗体的抗原特异性进行鉴定,并初步进行单抗效价、中和活性及亲和力等功能分析。结果显示,通过细胞融合和克隆化,共筛选出13株稳定分泌抗糖蛋白(Glycoprotein,GP)单抗和7株稳定分泌抗核蛋白(Nucleoprotein,NP)单抗的杂交瘤细胞株。免疫荧光和免疫沉淀鉴定显示获得的单抗有良好的抗原特异性。抗GP单抗中6株针对Gn,7株针对Gc,大部分的间接免疫荧光(Indirect immunofluorescence assay,IFA)滴度在1 280~20 480之间,其中4株抗Gn单抗具有中和活性。获得的7株抗NP单抗均与NP特异性结合,IFA滴度范围在5 120~20 480,均无中和活性。此外,经非竞争ELISA检测的两株抗GP单抗(1C8和1G8)均有较高亲和力。本研究为SFTS诊断方法的发展及SFTSV致病机制研究奠定了基础。     

抗FLAG标签单克隆抗体的制备、鉴定及初步应用

用碳化二亚胺法合成FLAG完全抗原,利用杂交瘤技术制备出5株分泌抗FLAG标签单克隆抗体的杂交瘤细胞株。经鉴定,腹水效价均高于1：106 ,且5株单抗与其它融合蛋白标签无交叉反应性,并在免疫亲和层析实验中取得了满意的效果,为含标签的融合蛋白的纯化和研究应用提供了重要的工具。     

Growth inhibition of human nasopharyngeal carcinoma in athymic mice by anti-epidermal growth factor receptor monoclonal antibodies

Monoclonal antibodies (MoAbs) were developed against epidermal growth factor (EGF) receptor on the human epidermoid carcinoma cell line A431. The A431 antigen recognized by the MoAbs has an apparent molecular weight of approximately 170,000, with the same molecular weight as the CNE-2 cell line (poorly differentiated nasopharyngeal carcinoma). Administration of anti-EGF receptor MoAbs inhibited tumor formation, caused by the CNE-2 and A431 cell lines, in athymic mice. When the same MoAbs were used in therapy against Tca8113 (a human tongue carcinoma) and HeLa cells (a human cervical carcinoma), tumor growth was not affected. The number of EGF receptors and the apparent dissociation constants for 125I-EGF on CNE-2 and A431 were 1.3 x 10(5)/cell (Kd 7.7 x 10(-8) M) and 1.4 x 10(6)/cell (Kd 2.4 x 10(-9) M), respectively. Three anti-EGF receptor MoAbs were used in these studies. MoAbs 3 and 176, capable of competing with EGF for receptor binding, showed significant tumor growth inhibition. MoAb 101 was incapable of blocking the binding of EGF to its receptor and was not as effective as MoAbs 3 and 176 in tumor growth inhibition. Our observation is that in vitro, MoAb anti-EGF receptor is cytostatic, rather than cytocidal, against CNE-2 and A431.     

Epidermal growth factor receptor. Characterization of a monoclonal antibody specific for the receptor of A431 cells

A monoclonal antibody to the epidermal growth factor (EGF) receptor of A431 cells was obtained after fusion of immunized BALB/c mouse spleen cells with NS-1 myeloma cells. Specific binding of the antibody to the plasma membrane of A431 cells was demonstrated by indirect immunofluorescence and electron microscopy. The antibody did not react with human KB cells, normal rat kidney cells, or Swiss 3T3 cells. The antibody is an IgG3K; it specifically immunoprecipitated a Mr approximately 170,000 protein from radiolabeled A431 cell extracts. This protein is phosphorylated in a EGF-dependent manner in intact A431 cells and in Triton X-100-solubilized plasma membranes. The specificity of the interaction of the antibody with the Mr = 170,000 protein was confirmed by electrophoretic transfer of A431 cell proteins to nitrocellulose followed by incubation with the antibody and 125I-protein A. When 125I-EGF was covalently cross-linked to its receptor, the 125I-EGF-receptor complex was specifically precipitated by the antibody. The monoclonal antibody did not inhibit the binding of 125I-EGF to its receptor in intact A431 cells and also failed to stimulate the phosphorylation of the Triton X-100-solubilized EGF receptor. The results indicate that the antibody and EGF bind to different sites on the EGF receptor. The antibody will be useful for isolating the EGF receptor in an unactivated form.     

Binding of an antagonistic monoclonal antibody to an intact and fragmented EGF-receptor polypeptide

A murine monoclonal antibody (No. 425) raised against human A431 carcinoma cells specifically immunoprecipitates the 170,000 molecular weight epidermal growth factor (EGF)-receptor from extracts of A431 cells as well as from extracts of human placenta and cultured fibroblasts, but does not recognize the murine receptor. Binding to the external domain of the human EGF-receptor was indicated by indirect immunofluorescent staining of fixed nonpermeable cells. The antibody binds to both glyco- and aglycoreceptor forms, indicating that the epitope is a part of the polypeptide chain. Binding of the antibody to the receptor is conformation dependent; i.e., denatured receptors lacking EGF-binding activity are not recognized by the antibody. The results of antibody binding studies indicate that the epitope is closely linked to the EGF binding active site, and is common to both high- and low-affinity EGF-receptors. Interaction of this epitope with the antibody inhibits EGF binding and bioactivity, and triggers receptor down-regulation, but does not generate EGFlike kinase-stimulatory or mitogenic responses either in vitro or in vivo. The antibody was tested for its ability to bind to domain-sized fragments of the 170-kDa EGF-receptor. It can recognize both the proteolytically generated 110-kDa EGF binding peptide, and a soluble 100-kDa EGF-receptor secreted by A431 cells. This indicates that the epitope recognized this antibody retains its conformation after proteolytic separation of the EGF binding domain from the rest of the receptor molecule.     

Inability of anti-epidermal growth factor receptor monoclonal antibody to block "autocrine" growth stimulation in transforming growth factor-secreting melanoma cells

Mouse monoclonal antibodies to the human epidermal growth factor (EGF) receptor were raised by immunizing with plasma membrane vesicles prepared from A431 cells. This paper describes the characterization of one of the IgG anti-receptor monoclonal antibodies generated and its use to probe the role of transforming growth factor (TGF) in the autonomous growth of a melanoma cell line in culture. This antibody blocks: 1) the binding of 125I-EGF to the A431 EGF receptor; 2) the EGF stimulation of the EGF-dependent protein kinase in vitro; and 3) human fibroblast DNA synthesis and proliferation in culture. It can precipitate the EGF receptor from metabolically labeled A431 cells and human fibroblasts and these receptors have indistinguishable peptide maps. No EGF receptor could be detected by immunoprecipitation after fibroblasts were treated with EGF or conditioned medium from the melanoma cells which secrete EGF-like TGF (alpha TGF). The antibody itself did not down-regulate the receptor but could block down-regulation caused by EGF and alpha TGF. Despite its ability to block EGF-stimulated growth and down-regulation in fibroblasts, the antibody was unable to block the growth and soft agar colony formation of alpha TGF-secreting melanoma cells, nor could the antibody detect EGF receptor in these cells under the conditions developed to prevent down-regulation and lysosomal degradation of the EGF receptor. These studies suggest that these melanoma cells do not have the intact EGF receptor and that the secretion of alpha TGF by these cells plays no role in their growth in culture. The absence of receptor cannot be explained by down-regulation by secreted alpha TGF.     

Monoclonal antibodies against the human epidermal growth factor receptor from A431 cells. Isolation, characterization, and use in the purification of active epidermal growth factor receptor

A431 cells have been used as an immunogen for generating monoclonal antibodies against the epidermal growth factor (EGF) receptor. Two immunoglobulin M and eight immunoglobulin G3 anti-EGF receptor antibodies were cloned. All ten antibodies immunoprecipitated biosynthetically labeled mature A431 cell EGF receptor and were able to recognize the receptor in Western blotting. However, none of the antibodies immunoprecipitated precursor polypeptides of the A431 cell EGF receptor, neither did they recognize EGF receptors from human foreskin fibroblasts, human placenta, nor a human-mouse hybrid cell expressing EGF receptor. The antibodies were found to bind to glycolipids from A431 cells and it was shown that the determinant involved was the blood group A antigen. It appears that this determinant is present on both the EGF receptor and glycolipids of A431 cells but is not expressed on EGF receptors from other human cells tested. One of the monoclonal antibodies raised was used for immunoaffinity purification of the EGF receptor. The procedure took advantage of the carbohydrate nature of the antigenic determinant by employing sugar-specific elution. The mild conditions permitted the purification of A431 cell EGF receptor (70-80% pure) that possessed an intrinsic EGF-stimulated tyrosine kinase activity with a specific activity of about 20 nmol/min/mg.     

Biosynthesis of the epidermal growth factor receptor in human squamous cell carcinoma lines: secretion of the truncated receptor is not common to epidermal growth factor receptor-hyperproducing cells

The biosynthesis of the EGF receptor was examined in the epidermoid carcinoma cell line A431 and five novel cell lines from human squamous cell carcinomas possessing high numbers of EGF receptors. Newly synthesized EGF receptors were visualized by labeling with [35S]methionine and immunoprecipitation with a monoclonal anti-EGF receptor antibody. In addition, the processing of the EGF receptor and its intracellular transport was analyzed by distinguishing cell surface receptors from intracellular receptors and by treating cells with inhibitors such as tunicamycin, monensin and brefeldin A. These analyses revealed that in all the tumor cell lines the EGF receptor is synthesized as a glycosylated protein of Mr 160,000 which is converted to the receptor of Mr 170,000 through posttranslational glycosylation. The receptors of Mr 160,000 and 170,000 appeared to possess high mannose type oligosaccharide chains because endoglycosidase H treatment reduced their molecular weights by approximately 30,000. A431 was the only tumor cell line studied that secreted the truncated EGF receptor of Mr 110,000. In A431 cells, the truncated EGF receptor was generated from a protein of Mr 60,000 through tunicamycin- and monensin-sensitive glycosylation. A431 cells treated with monensin secreted the truncated receptor as a Mr 95,000 form.     

Isolation and characteristics of monoclonal antibodies to the external domain of the EGF receptor in human A431 epidermoid carcinoma

The monoclonal antibody to the epidermal growth factor (EGF) receptor was generated after fusion of PAI myeloma cells with immunized BALB/c mouse spleen cells, using intact A431 epidermoid carcinoma cells as an immunogen. The antibody, denoted 5A9, is an IgG, which recognizes a protein with molecular mass 170 kDa during immunoblot analysis, immunoprecipitates phosphoprotein with molecular mass 170 kDa from the membrane preparations of A431 cells, and, according to immunofluorescence experiments, is distributed in the cell similar to the EGF-rhodamine conjugate. It is concluded that the produced antibodies are specific to EGF-receptor. At the same time the 5A9 (50 nM) do not compete with EGF for binding with high and low affinity receptors. They fail to induce internalization of the EGF-receptor and do not exert influence on intracellular degradation of EGF-receptor. Monoclonal antibodies 5A9 are also unable to inhibit the EGF-induced protein kinase activity of the receptor and do not stimulate protein kinase activity by themselves. Thus, the prepared monoclonal antibodies can be used to register the EGF-receptor cellular localization without affecting biologic activity of the receptor.     

Immunoaffinity purification of the epidermal growth factor receptor. Stoichiometry of binding and kinetics of self-phosphorylation

Epidermal growth factor (EGF) receptor protein has been purified in a single high-yield step by immunoaffinity chromatography of extracts of A431 cells. A monoclonal antibody directed against the EGF binding site of the receptor was immobilized to Sepharose 4B as a specific immune absorbent and competitive elution with EGF was used to obtain purified EGF receptor protein with tyrosine kinase activity. The stoichiometry of EGF binding was determined by comparing 125I-EGF binding to A431 cells with the mass of EGF receptor protein in those cells as measured by immunoaffinity chromatography, radioimmunoassay, and immune precipitation. Each measurement indicated one EGF binding site/EGF receptor protein molecule. Study of the kinetics of autophosphorylation revealed rapid incorporation of 1 mol of phosphate/mol of enzyme followed by slower incorporation of additional phosphate groups. The autophosphorylation reaction has a Km for ATP (0.2 microM) which is about 10-fold lower than that for phosphorylation of exogenous substrates. The kinetically preferred autophosphorylation is an intramolecular reaction.     

Human epidermal growth factor (EGF) receptor sequence recognized by EGF competitive monoclonal antibodies. Evidence for the localization of the EGF-binding site

Epitopes recognized by three epidermal growth factor (EGF) competitive monoclonal antibodies, LA22, LA58, and LA90, have been localized to a 14-amino acid region in the extracellular domain of the human EGF receptor. The binding of each of these mutually competitive antibodies to A431 epidermoid carcinoma cells was inhibited up to 87% by EGF. Furthermore, binding to A431 cells was inhibited 100% by the EGF competitive monoclonal antibody 528 IgG. The EGF receptor monoclonal antibody 455 IgG, which recognizes a blood group A-related carbohydrate modification of A431 receptors and does not inhibit EGF binding, did not inhibit the binding of these three antibodies to A431 cells. Antibodies LA22, LA58, and LA90 were unusual in that they bound to recognized denatured and endoglycosidase F-treated antigenic determinants in Western blots. This suggested that the antibodies recognized continuous peptide epitopes. The epitopes for these antibodies were first localized in cyanogen bromide- and V8 protease-generated fragments of a truncated form of the EGF receptor secreted by A431 cells. In experiments with synthetic peptides, all three antibodies were found to bind to the 14 amino acids from Ala-351 to Asp-364 of the mature human EGF receptor. These amino acids are located between the two Cys-rich regions of the extracellular domain of the receptor, and they include an Arg-Gly-Asp-Ser recognition site for adhesion molecule receptors. The homologous sequence in the chicken EGF receptor, which binds mouse EGF with a 100-fold lower affinity than the human EGF receptor, contains four amino acid differences including two in the Arg-Gly-Asp-Ser tetramer. The mutually competitive binding of EGF and antibodies LA22, LA58, and LA90 implied that the amino acids between Ala-351 and Asp-364 participated in the formation of the EGF-binding site of the human EGF receptor.     

Properties of a monoclonal antibody to epidermal growth factor receptor with implications for the mechanism of action of EGF.

A monoclonal antibody, EGR/ G49 , raised against the receptor for epidermal growth factor (EGF) present in A431 cells inhibits EGF binding by decreasing the affinity of the major population of low affinity receptors while leaving the minor high affinity population relatively unperturbed. The antibody, which binds to a carbohydrate determinant at a site distinct from the EGF binding site, induces clustering and internalisation of the receptor without stimulating the EGF receptor-kinase or affecting its ability to undergo stimulation by EGF. It is toxic to A431 cells and induces morphological changes similar to those seen when these cells are challenged with EGF in the concentration range 1-10 nM. These results suggest that high and low affinity EGF receptors can be distinguished and that they may serve different functions.