用皂土法制造型特异性肉毒诊断血清

用皂土为载体与类毒素结合方法及破伤风类毒素抗原抗体絮状反应方法去除A、B、C、D、E、F型肉毒抗血清原料中的异型和异种抗毒素(破伤风抗毒素)。制备的A、B、C、D、E、F型肉毒诊断血清每1m l均能中和相应型的肉毒毒素10000LD50以上,而中和异型肉毒毒素或破伤风毒素均低于5 LD50;A、B、C、D、E、F各型混合后的混合型血清每1m l能中和各型肉毒毒素亦大于10000 LD50,中和破伤风毒素低于5 LD50,即效价和特异性符合规程要求。     

A型肉毒聚合类毒素的制备及免疫原性研究

通过制备A型肉毒聚合类毒素,研究获得较好的免疫原性和反应原性的方法.通过碳二亚胺法,聚合A型肉毒类毒素,免疫小鼠,用ELISA检测抗体,成功地制备了A型肉毒聚合类毒素,免疫小鼠获得高效价免疫血清,且该免疫血清具有中和活性,研究A型肉毒聚合类毒素抗原的作用机制,获得具有中和活性的保护性抗体,对肉毒毒素中毒的防治具有重要意...     

A型肉毒毒素中和抗体3D12的表达

目的:表达A型肉毒毒素(Bo NT/A)中和抗体3D12。方法:按哺乳动物偏好密码子设计合成3D12轻链(L)和重链(H)编码序列,分别连入L293、H293表达载体,共转染至HEK293细胞进行瞬时表达并纯化;通过ELISA检测3D12效价、3D12与Bo NT/A受体的竞争结合作用及与Bo NT/AHc的亲和力常数,通过Western印迹鉴定3D12的特异性。结果:得到轻链(L293-L)及重链(H293-H)表达载体;瞬时表达并纯化得到抗体3D12;ELISA结果显示3D12效价为1.22×106,3D12与Bo NT/A受体FGFR3、SV2C之间不存在竞争结合作用,3D12的亲和力常数K=10.6×108L/mol;Western印迹显示3D12与Bo NT/AHc能够特异性结合。结论:得到A型肉毒毒素中和抗体3D12,为肉毒毒素中和抗体的开发及阐明中和抗体的表位奠定了基础。     

B型肉毒毒素重组Hc亚单位疫苗的免疫原性研究

目的:用大肠杆菌表达重组B型肉毒毒素受体结合区Hc抗原(BHc)作为亚单位疫苗,并研究其免疫原性。方法:构建pTIG-Trx-BHc原核表达载体,用大肠杆菌表达并纯化重组BHc抗原;免疫BALB/c小鼠以研究它的免疫原性。结果:大肠杆菌表达并纯化获得了重组BHc抗原,免疫小鼠后能刺激机体产生高效价的抗BHc抗体和保护性免疫反应。该重组BHc亚单位疫苗1μg剂量2次免疫小鼠即可产生对104LD50剂量B型肉毒毒素攻毒的完全保护,血清中和效价可达1.33 IU/m L。结论:大肠杆菌表达的重组BHc抗原具有良好的免疫原性,能够有效地保护小鼠抵抗B型肉毒毒素的攻击,该BHc抗原能够作为亚单位候选疫苗预防B型肉毒毒素中毒。     

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。     

肉毒毒素结构及其重组疫苗的相关研究进展

肉毒毒素是肉毒梭状杆菌产生的外毒素,有7种血清型(A～G).肉毒毒素属神经强毒,是目前已知的毒性最强的细菌蛋白质.作为重要的生物战剂之一,对肉毒毒素的研究已经相当深入,基本明确了各型肉毒毒素的基因序列、同源性和三维结构及毒素作用的本质和机理.随着国际恐怖活动的日益猖獗,针对肉毒毒素的检测和预防也备受关注,对其疫苗的探索已成为研究的焦点.本扼要介绍了肉毒毒素的结构、作用机制及其疫苗的相关研究进展.     

A型肉毒毒素单克隆抗体的制备和鉴定

目的:制备并鉴定抗A型肉毒毒素重链C端(BoNT/AHc)鼠源单抗。方法:以BoNT/AHc蛋白为抗原免疫小鼠,利用杂交瘤技术获得鼠源单抗,通过抗体分型、SDS-PAGE、Western印迹及ELISA法分析鉴定。结果:筛选得到3株鼠单抗1B1、1B2、1C6,重链类型均为IgG1,轻链类型均为κ型;3株纯化抗体的纯度达90%以上,均能与抗原BoNT/AHc特异性结合,亲和力常数分别为1.43×10~8、2.31×10~8、1.44×10~9L/mol;叠加ELISA结果显示3株抗体与抗原BoNT/AHc结合位点相同或相近。结论:筛选得到3株能与BoNT/AHc特异性结合的鼠源单抗,为A型肉毒毒素中和抗体的研发,以及快速有效的肉毒毒素检测方法的建立奠定了基础。     

肉毒毒素抑制剂的研究进展

肉毒毒素(BoNT)是目前已知的毒性最强的生物毒素,肉毒毒素中毒的抗毒素治疗只对未进入神经细胞的毒素有效,而对中毒时间较长、轻链已进入神经系统者无效。近10年来,随着肉毒毒素晶体结构的测定、中毒机理的深入研究,以及体外高通量评价模型的建立,对小分子肉毒毒素抑制剂的研究取得了显著进展。从肉毒毒素中毒机理、结构特征出发,简要综述了肉毒毒素抑制剂的研究进展。     

人源抗A型肉毒毒素单链抗体的体外亲和筛选*

以重组制备的A型肉毒毒素保护性抗原为配体,对人源噬菌体免疫抗体文库进行体外定向亲和筛选,获得特异结合子,其中与抗原高亲和力结合的抗体克隆B17基因全长750bp,可编码250个氨基酸,抗体可变区基因同源分析表明,分属VH4和κchainⅡ家族,是一株人源特异单链抗体基因。人源单链抗体B17在大肠杆菌中获得了重组表达,表达产物可以竞争特异肉毒抗毒素马血清与抗原的结合,是国内首次获得的抗A型肉毒毒素保护性抗原的人源单链抗体,可以在肉毒毒素检测和治疗研究中发挥作用。     

人源抗A型肉毒毒素单链抗体的体外亲和筛选

以重组制备的A型肉毒毒素保护性抗原为配体,对人源噬菌体免疫抗体文库进行体外定向亲和筛选,获得特异结合子,其中与抗原高亲和力结合的抗体克隆B17基因全长750bp,可编码250个氨基酸,抗体可变区基因同源分析表明,分属VH4和κ chain Ⅱ家族,是一株人源特异单链抗体基因。人源单链抗体B17在大肠杆菌中获得了重组表达,表达产物可以竞争特异肉毒抗毒素马血清与抗原的结合,是国内首次获得的抗A型肉毒毒素保护性抗原的人源单链抗体,可以在肉毒毒素检测和治疗研究中发挥作用。     

Monoclonal antibodies to botulinum neurotoxins of types A,B, E,and F

Mouse monoclonal antibodies to health-threatening botulinum neurotoxins (BoNTs) of types A, B, E, and F have been produced and characterized. The antibodies are capable of interacting with a toxin inside the respective natural toxic complex. A sandwich ELISA for the quantitative detection of botulotoxins has been developed on based on the antibodies. The detection limits of the test systems for BoNTs A, B, E, and F is 0.4, 0.5, 0.1, and 2.4 ng/ml, respectively. The assay quantitatively detects BoNTs in canned meat and vegetables. Two antibodies, BNTA-4.1 and BNTA-9.1, both separately and in combination, are capable of neutralizing the natural botulinum toxic complex of type A in vivo; a combination of antibodies neutralizes a higher dose of the toxin. It has been shown that the antibody BNTA-4.1 binds specifically to the light (catalytic) chain of the toxin, and the antibody BNTA-9.1 interacts with the heavy chain. We believe that monoclonal antibodies BNTA-4.1 and BNTA-9.1 hold promise for developing therapeutic antibodies to treat BoNT/A-caused botulism in an emergency.     

Use of monoclonal antibodies in enzyme linked immunosorbent assay (ELISA) for detection of botulinum type B toxins

Use of polyclonal antibodies failed to correlate mouse assay with enzyme linked immunosorbent assay (ELISA) in titration of culture fluid of different strains of Clostridium botulinum type B. If ELISA is performed with such a monoclonal antibody that is capable of neutralizing the toxin, however, the lethal toxicity can be determined quantitatively.     

Production of monoclonal antibodies against Clostridium botulinum type E derivative toxin

Abstract Five monoclonal antibodies (MCA; E–8–2, 9–1, 11–2, 12–4, and 13–1) against Clostridium botulinum type E derivative toxin were prepared. Their ELISA titers were higher than or equivalent to that of conventional polyclonal antibody. Three of them (E-8–2, 12–4, and 13–1) possessed the neutralizing activity comparable to that of polyclonal antibody. The results of binding-competition experiments indicated that the monoclonal antibodies bound to different sites on the type E toxin molecule. Immunoblotting analyses demonstrated that E-8–2, 9–1, and 11–2 react to fragment I (heavy chain) of the toxin. By use of these monoclonal antibodies, it may be possible to scrutinize the structure-function relationship of botulinum toxins and cross reactions between type E and F toxins.     

Monoclonal antibodies to type A, B, E and F botulinum neurotoxins

Mouse monoclonal antibodies against the most acutely toxic substances, botulinum neurotoxins (BoNTs) of types A, B, E, and F, was generated and characterized, that recognize their respective toxins in natural toxin complex. Based on these antibodies, we developed sandwich-ELISA for quantitative detection of these toxins. For each respective toxin the detection limit of the assay was: BoNT/A - 0.4 ng/ml, BoNT/B - 0.5 ng/ml; BoNT/E - 0.1 ng/ml; and for BoNT/F - 2.4 ng/ml. The developed assays permitted quantitative identification of the BoNTs in canned meat and vegetables. The BNTA-4.1 and BNTA-9.1 antibodies possessed neutralizing activity against natural complex of the botulinium toxin type A in vivo, both individually and in mixture, the mixture of the antibodies neutralized the higher dose of the toxin. The BNTA-4.1 antibody binds specifically the light chain (the chain with protease activity) of the toxin, whereas BNTA-9.1 interacts with the heavy chain. We believe that the BNTA-4.1 and BNTA-9.1 monoclonal antibodies are prospective candidates for development of humanized therapeutic antibodies for treatment of BoNT/A-caused botulism.     

Algal chloroplast produced camelid VHH antitoxins are capable of neutralizing botulinum neurotoxin

We have produced three antitoxins consisting of the variable domains of camelid heavy chain‐only antibodies (V_HH) by expressing the genes in the chloroplast of green algae. These antitoxins accumulate as soluble proteins capable of binding and neutralizing botulinum neurotoxin. Furthermore, they accumulate at up to 5% total soluble protein, sufficient expression to easily produce these antitoxins at scale from algae. The genes for the three different antitoxins were transformed into Chlamydomonas reinhardtii chloroplasts and their products purified from algae lysates and assayed for in vitro biological activity using toxin protection assays. The produced antibody domains bind to botulinum neurotoxin serotype A (BoNT/A) with similar affinities as camelid antibodies produced in Escherichia coli, and they are similarly able to protect primary rat neurons from intoxication by BoNT/A. Furthermore, the camelid antibodies were produced in algae without the use of solubilization tags commonly employed in E. coli. These camelid antibody domains are potent antigen‐binding proteins and the heterodimer fusion protein containing two V_HH domains was capable of neutralizing BoNT/A at near equimolar concentrations with the toxin. Intact antibody domains were detected in the gastrointestinal (GI) tract of mice treated orally with antitoxin‐producing microalgae. These findings support the use of orally delivered antitoxins produced in green algae as a novel treatment for botulism.     

Detection of Clostridium botulinum toxin A using a fiber optic-based biosensor.

A rapid, sensitive, analytical method for the detection of Clostridium botulinum toxin has been developed. The fiber optic-based biosensor utilizes the evanescent wave of a tapered optical fiber for signal discrimination. A 50 mW argon-ion laser, which generates laser light at 514 nm, is used in conjunction with an optical fiber probe that is tapered at the distal end. Antibodies specific for C. botulinum are covalently attached to the surface of the tapered fiber. The principle of the system is a sandwich immunoassay using rhodamine-labeled polyclonal anti-toxin A immunoglobin G (IgG) antibodies for generation of the specific fluorescent signal. Various anti-toxin antibodies were immobilized to the fibers. Affinity-purified polyclonal horse anti-toxin A antibodies performed better than the IgG fraction from the same horse serum or than the monoclonal anti-toxin A antibody BA11-3. Botulinum toxin could be detected within a minute, at concentrations as low as 5 ng/ml. The reaction was highly specific and no response was observed against tetanus toxin.     

Fine and domain-level epitope mapping of botulinum neurotoxin type A neutralizing antibodies by yeast surface display

Botulinum neurotoxin (BoNT), the most poisonous substance known, causes naturally occurring human disease (botulism) and is one of the top six biothreat agents. Botulism is treated with polyclonal antibodies produced in horses that are associated with a high incidence of systemic reactions. Human monoclonal antibodies (mAbs) are under development as a safer therapy. Identifying neutralizing epitopes on BoNTs is an important step in generating neutralizing mAbs, and has implications for vaccine development. Here, we show that the three domains of BoNT serotype A (BoNT/A) can be displayed on the surface of yeast and used to epitope map six mAbs to the toxin domains they bind. The use of yeast obviates the need to express and purify each domain, and it should prove possible to display domains of other BoNT subtypes and serotypes for epitope mapping. Using a library of yeast-displayed BoNT/A binding domain (H(C)) mutants and selecting for loss of binding, the fine epitopes of three neutralizing BoNT/A mAbs were identified. Two mAbs bind the C-terminal subdomain of H(C), with one binding near the toxin sialoganglioside binding site. The most potently neutralizing mAb binds the N-terminal subdomain of H(C), in an area not previously thought to be functionally important. Modeling the epitopes shows how all three mAbs could bind BoNT/A simultaneously and may explain, in part, the dramatic synergy observed on in vivo toxin neutralization when these antibodies are combined. The results demonstrate how yeast display can be used for domain-level and fine mapping of conformational BoNT antibody epitopes and the mapping results identify three neutralizing BoNT/A epitopes.     

Development of neutralizing scFv-Fc against botulinum neurotoxin A light chain from a macaque immune library

Botulinum toxins (BoNTs) are among the most toxic substances on earth, with serotype A toxin being the most toxic substance known. They are responsible for human botulism, a disease characterized by flaccid muscle paralysis that occurs naturally through food poisoning or the colonization of the gastrointestinal tract by BoNT-producing clostridia. BoNT has been classified as a category A agent by the Centers for Disease Control, and it is one of six agents with the highest potential risk of use as bioweapons. Human or human-like neutralizing antibodies are thus required for the development of anti-botulinum toxin drugs to deal with this possibility. In this study, Macaca fascicularis was hyperimmunized with a recombinant light chain of BoNT/A. An immune phage display library was constructed and, after multistep panning, several scFv with nanomolar affinities that inhibited the endopeptidase activity of BoNT/A1 in vitro as scFv-Fc, with a molar ratio (ab binding site:toxin) of up to 1:1, were isolated. The neutralization of BoNT/A-induced paralysis by the SEM120-IID5, SEM120-IIIC1 and SEM120-IIIC4 antibodies was demonstrated in mouse phrenic nerve-hemidiaphragm preparations with the holotoxin. The neutralization observed is the strongest ever measured in the phrenic nerve-hemidiaphragm assay for BoNT/A1 for a monoclonal antibody. Several scFv-Fc inhibiting the endopeptidase activity of botulinum neurotoxin A were isolated. For SEM120-IID5, SEM120-IIIC1, and SEM120-IIIC4, inhibitory effects in vitro and protection against the toxin ex vivo were observed. The human-like nature of these antibodies makes them promising lead candidates for further development of immunotherapeutics for this disease.     

Development of neutralizing scFv-Fc against botulinum neurotoxin A light chain from a macaque immune library

Botulinum toxins (BoNTs) are among the most toxic substances on earth, with serotype A toxin being the most toxic substance known. They are responsible for human botulism, a disease characterized by flaccid muscle paralysis that occurs naturally through food poisoning or the colonization of the gastrointestinal tract by BoNT-producing clostridia. BoNT has been classified as a category A agent by the Centers for Disease Control, and it is one of six agents with the highest potential risk of use as bioweapons. Human or human-like neutralizing antibodies are thus required for the development of anti-botulinum toxin drugs to deal with this possibility. In this study, Macaca fascicularis was hyperimmunized with a recombinant light chain of BoNT/A. An immune phage display library was constructed and, after multistep panning, several scFv with nanomolar affinities that inhibited the endopeptidase activity of BoNT/A1 in vitro as scFv-Fc, with a molar ratio (ab binding site:toxin) of up to 1:1, were isolated. The neutralization of BoNT/A-induced paralysis by the SEM120-IID5, SEM120-IIIC1 and SEM120-IIIC4 antibodies was demonstrated in mouse phrenic nerve-hemidiaphragm preparations with the holotoxin. The neutralization observed is the strongest ever measured in the phrenic nerve-hemidiaphragm assay for BoNT/A1 for a monoclonal antibody. Several scFv-Fc inhibiting the endopeptidase activity of botulinum neurotoxin A were isolated. For SEM120-IID5, SEM120-IIIC1, and SEM120-IIIC4, inhibitory effects in vitro and protection against the toxin ex vivo were observed. The human-like nature of these antibodies makes them promising lead candidates for further development of immunotherapeutics for this disease.     

鼠源抗B型肉毒毒素单链抗体噬菌体文库的构建筛选及抗体免疫学活性的初步研究

B型肉毒毒素重链C-端片段(BoNTB/Hc)经金属螯和层析法纯化后免疫Balb/c小鼠,从其脾淋巴细胞中提取总RNA,反转录成cDNA,用抗体可变区混合引物进行全套抗体重、轻链可变区基因的扩增,体外随机装配成单链抗体(scFv)。将其克隆至pCANTAB5E中,构建单链抗体噬菌体抗体库。结果表明经过4轮"吸附-洗脱-扩增"的富集过程,筛选获得高亲和力的克隆。序列测定符合抗体可变区结构特点。