抗NI-35重组单链抗体基因cDNA的合成与克隆

目的抗NI-35抗体(anti-NI-35antibody)作为神经再生抑制因子(NI-35)的拮抗剂对神经再生促进作用的研究是近年的热点,研究表明,抗NI-35抗体能促进体内外受损伤神经元的存活和突起生长。我们重新设计并人工合成抗NI-35重组单链抗体(anti-NI-35-scfv)的cDNA克隆构建其表达载体,在原核系统中实现初步表达。方法参照genebank中发表的抗NI-35抗体的轻链重链序列,重新设计适于在大肠杆菌中表达的目的基因片段,将该基因双链分成35个小片段合成,经退火、复性连接成目的片段后,克隆到经过BamHI和HindIII双酶切的克隆载体pUC18中,并转化大肠杆菌DH5a,抽提重组子pUC18/744进行克隆PCR、酶切鉴定及测序分析。结果测序结果证明获得的基因序列与实验设计仅差一个碱基。结论正确合成了抗NI-35重组单链抗体(anti-NI-35-single-chainantibody)为抗NI-35抗体应用于治疗弥漫性轴索损伤提供了实验基础。     

新型重组人源抗狂犬病毒糖蛋白单链抗体的制备及活性分析

目的：利用大肠杆菌表达新型人源抗狂犬病毒糖蛋白单链抗体ScFv,并验证其活性。方法：采用基因融合获得ScFv基因,构建重组表达质粒pET-22b（＋）-ScFv,转化大肠杆菌BL21（DE3）,经IPTG诱导获得高效表达。结果：Western印迹显示目的蛋白表达正确,表达产物以包涵体形式存在,经Ni-NTA柱纯化和体外复性,获得纯度达90%的ScFv蛋白。ELISA结果显示在PBS及人血清中ScFv的结合稳定性有所提高,流式细胞术证明目的蛋白能靶向结合狂犬病毒,通过中和效价测定实验测得ScFv的中和效价为40 U/mg。结论：成功利用原核表达系统实现了对人源抗GPRV ScFv的表达,并且具有一定的中和活性。     

单链抗体及其融合蛋白在肿瘤诊治中的应用

单链抗体由于分子量小,免疫原性低,组织穿透力强,特异性好等优点,与单克隆抗体相比,在肿瘤的诊断和治疗方面展示了更好的应用前景.全文对近年来单链抗体及其融合蛋白在肿瘤导向诊断和治疗,肿瘤基因治疗和肿瘤疫苗方面应用研究进展做一综述.     

鼠抗人纤维蛋白单链抗体-低相对分子质量单链尿激酶融合基因真核分泌表达载体的构建

目的 构建鼠抗人纤维蛋白单链抗体－低相对单链尿激酶融合基因真核分泌表达载体。方法 应用重组ＤＮＡ技 术,将人工合成的尿激酶原信号肽基因与鼠抗人纤维蛋白单链抗体－低相对分子质量单链尿激酶融合基因连接,并保 证在同一阅读框架,然后分别插科到pcＤＮＡ３和ＰＭＪＫ３两种真核表达载体中。结果构建成可以在真核细胞中分泌表 达鼠抗人纤维蛋白单链抗体－低相对分子质量单链尿激酶融合蛋白的重组质粒pcＤＮＡ３－Ｄ１和ｐＭＪＫ３－Ｄ１。结论为建 立稳定分泌表达鼠抗人纤维蛋白单链抗体－低相对分子质量单链尿激酶融合蛋白的细胞工程株奠定了基础。     

Thermoresponsive Reversible Unimer Micelles of Amphiphilic Fluorinated Copolymers

Amphiphilic fluorinated copolymers PEGMAx-co-FAy and TEGMAx-co-FAy are prepared by activators regenerated by electron transfer atom transfer radical polymerization (ARGET-ATRP). All polymers present a reversible thermoresponsive lower critical solution temperature-type behavior, and a cloud point temperature (T_c) in the range of 30–60 °C strictly dependent on the length of the oxyethylene side chain, the content of the hydrophobic counits, and the concentration of the solution. Combined small angle X-ray scattering (SAXS) and dynamic light scattering measurements are used to study the self-assembly behavior in water, organic solvents (tetrahydrofuran [THF] and dimethylformamide [DMF]), and a fluorinated solvent (hexafluorobenzene [HFB]). SAXS confirms the formation of compact-globular single-chain self-folded unimer micelles in water below T_c, which generally presents small hydrodynamic diameters (D_h ≤ 8 nm) as a result of the folding of the hydrophobic perfluorohexylethyl acrylate counits. The copolymers are also able to form reverse unimer micelle in HFB. The copolymers are not able to self-assemble in unimer micelles in THF or DMF solutions, in which they adopt conventional random coil conformations.     

Construction and analysis of three-dimensional graphic model of single-chain Fv derived from an anti-human placental acidic isoferritin monoclonal antibody by computer

As a 24--iner consisting of different proportions of two main subunit types, named L and H,ferritin is a protein involved in iron storage. Inmammalian tissues, ferritin exists in differentmolecular forms (isoferritins )LI,2]. Previous studies showed that the acidic isoform of ferritin existing in the placenta, fetal tissues and malignant tissues was abnormally increased in the sera of patients with malignancies as well as in pregnantwomen at risk of having small--for--gestational ageinfants[3…     

Engineering of a recombinant trivalent single-chain variable fragment antibody directed against rabies virus glycoprotein G with improved neutralizing potency

Human and equine rabies immunoglobulins are currently available for passive immunization against rabies. However, these are hampered by the limited supply and some drawbacks. Advances in antibody engineering have led to overcome issues of clinical applications and to improve the protective efficacy. In the present study, we report the generation of a trivalent single-chain Fv (scFv50AD1-Fd), that recognizes the rabies virus glycoprotein, genetically fused to the trimerization domain of the bacteriophage T4 fibritin, termed ‘foldon’ (Fd). scFv50AD1-Fd was expressed as soluble recombinant protein in bacterial periplasmic space and purified through affinity chromatography. The molecular integrity and stability were analyzed by polyacrylamide gradient-gel electrophoresis, size-exclusion chromatography and incubation in human sera. The antigen-binding properties of the trimeric scFv were analyzed by direct and competitive-ELISA. Its apparent affinity constant was estimated at 1.4 ± 0.25 × 10⁹ M⁻¹ and was 75-fold higher than its monovalent scFv (1.9 ± 0.68 × 10⁷ M⁻¹). The scFv50AD1-Fd neutralized rabies virus in a standard in vitro and in vivo neutralization assay. We showed a high neutralization activity up to 75-fold compared with monovalent format and the WHO standard serum. The gain in avidity resulting from multivalency along with an improved biological activity makes the trivalent scFv50AD1-Fd construct an important reagent for rabies protection. The antibody engineering approach presented here may serve as a strategy for designing a new generation of anti-rabies for passive immunotherapy.     

Innovation in Chemistry,Manufacturing, and Controls—A Regulatory Perspective From Industry

This review describes the landscape of novel modalities such as cell and gene therapies, viruses, other novel biologics, oligomers, and emerging technologies, including modern analytics. We summarize the regulatory history and recent landmark developments in some major markets and examine specific chemistry, manufacturing, and controls (CMC) challenges, including suggestions for exploration of potential science-based approaches in support of regulatory strategy development from an industry perspective. In addition, we evaluate the economic factors contributing to patient access to innovation and discuss the impact of regulation. There is a desperate need for a consistent form of regulation where global approaches to regulatory strategies can be harmonized, and specific CMC challenges can be dealt with using the appropriate science and risk-based tools. Although these tools are well described in current guidance documents, the specifics of applicability to complex novel modalities can still result in differing regulatory advice and outcomes. The future goals for efficiently regulating innovative modalities and technologies could be aided by more regulatory harmonization, regulatory education, and industry cooperation through consortia, enabling industry to supply key information to regulators in a transparent yet well-defined manner, and utilizing mutually understood risk-benefit analyses to produce drugs with appropriate safety, efficacy, and quality characteristics.     

抗乙酰胆碱受体单链抗体基因克隆与表达

目的重建含有抗乙酰胆碱受体(AChR)单链抗体1929#(single-chain Fv antibody 1929#,scFv1929#)基因的载体并在大肠杆菌(E.coli)进行表达,提高scFv1929#的可溶性表达量。方法用聚合酶链反应法(PCR)扩增载体pHEN1中的scFv1929#结构基因,将扩增产物定向克隆至载体pET32a(+)的多克隆位点中构建新的载体pET32a(+)-scFv1929#,经EcoR v和NotⅠ双酶切后进行鉴定,并将所构建载体转化入表达宿主E.coli BL21(DE3)plysS菌株内诱导表达后集菌并裂菌,将诱导前菌体、诱导后菌体,以及裂菌后所得诱导后上清、诱导后沉淀进行十二烷基硫酸钠聚丙烯酰胺凝胶电泳(SDS-PAGE)分析,并采用Western blot(WB)法进行鉴定。结果鉴定结果显示载体pET32a(+)-scFv1929#中所插入的scFv1929#基因片段大小为730bp,与预计相符,经测序确定该基因序列无误。SDS-PAGE电泳结果显示37℃下诱导前菌体、诱导后菌体、诱导后上清、诱导后沉淀中均可在相对分子质量(Mr)接近44 000处见到蛋白条带,其中诱导后菌体及诱导后沉淀中的条带较粗大。经WB法证实融合蛋白scFv1929#具有较高特异性。结论 scFv1929#表达载体pET32a(+)-scFv1929#被成功构建,并可在大肠杆菌中高效表达,其表达产物具有较好特异性。     

Plant-produced idiotype vaccines for the treatment of non-Hodgkin's lymphoma: safety and immunogenicity in a phase I clinical study

Plant-made vaccines have been the subject of intense interest because they can be produced economically in large scale without the use of animal-derived components. Plant-made therapeutic vaccines against challenging chronic diseases, such as cancer, have received little research attention, and no previous human clinical trials have been conducted in this vaccine category. We document the feasibility of using a plant viral expression system to produce personalized (patient-specific) recombinant idiotype vaccines against follicular B cell lymphoma and the results of administering these vaccines to lymphoma patients in a phase I safety and immunogenicity clinical trial. The system allowed rapid production and recovery of idiotypic single-chain antibodies (scFv) derived from each patient's tumor and immunization of patients with their own individual therapeutic antigen. Both low and high doses of vaccines, administered alone or co-administered with the adjuvant GM-CSF, were well tolerated with no serious adverse events. A majority (>70%) of the patients developed cellular or humoral immune responses, and 47% of the patients developed antigen-specific responses. Because 15 of 16 vaccines were glycosylated in plants, this study also shows that variation in patterns of antigen glycosylation do not impair the immunogenicity or affect the safety of the vaccines. Collectively, these findings support the conclusion that plant-produced idiotype vaccines are feasible to produce, safe to administer, and a viable option for idiotype-specific immune therapy in follicular lymphoma patients.