Development and characterization of a novel fusion protein composed of a human IgG1 heavy chain constant region and a single-chain fragment variable antibody against Venezuelan equine encephalitis virus

Murine monoclonal antibody 1A4A1 has been shown to recognize a conserved neutralizing epitope of envelope glycoprotein E2 of Venezuelan equine encephalitis virus. It is a potential candidate for development of a second generation antibody for both immunodiagnosis and immunotherapy. In order to minimize the immunogenicity of murine antibodies and to confer human immune effector functions on murine antibodies, a recombinant gene fusion was constructed. It encoded a human IgG1 heavy chain constant region and a single-chain fragment variable antibody of 1A4A1. After expression in bacteria as inclusion bodies, the recombinant antibody was purified and refolded in vitro. The recombinant soluble antibody was demonstrated to retain high antigen-binding affinity to Venezuelan equine encephalitis virus and to possess some human IgG crystallizable fragment domain functions, such as recognition by protein G and human complement C1q binding. On non-reducing and reducing gel electrophoresis analysis of proteolytic fragments of the recombinant antibody, disulfide bond formation was found in the hinge region of the antibody. From these data, it was concluded that the recombinant antibody was capable of antigen recognition, and retained several functional activities. This work forms the basis for characterization of the recombinant antibody as to efficacy in vivo.     

A single-chain antibody fragment is functionally expressed in the cytoplasm of both Escherichia coli and transgenic plants.

Despite the well-known crucial role of intradomain disulfide bridges for immunoglobulin folding and stability, the single-chain variable fragment of the anti-viral antibody F8 is functionally expressed when targeted to the reducing environment of the plant cytoplasm. We show here that this antibody fragment is also functionally expressed in the cytoplasm of Escherichia coli. A gel shift assay revealed that the single-chain variable fragment (scFv) accumulating in the plant and bacterial cytoplasm bears free sulfhydryl groups. Guanidinium chloride denaturation/renaturation studies indicated that refolding occurs even in a reducing environment, producing a functional molecule with the same spectral properties of the native scFv(F8). Taken together, these results suggest that folding and functionality of this antibody fragment are not prevented in a reducing environment. This antibody fragment could therefore represent a suitable framework for engineering recombinant antibodies to be targeted to the cytoplasm.     

High-level expression and characterization of an anti-VEGF165 single-chain variable fragment (scFv) by small ubiquitin-related modifier fusion in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Antibodies currently constitute the most rapidly growing class of human therapeutics; however, the high-yield production of recombinant antibodies and antibody fragments is a real challenge. High expression of active single-chain antibody fragment (scFv) in Escherichia coli has not been successful, as the protein contains three intramolecular disulfide bonds that are difficult to form correctly in the bacterial intracellular environment. To solve this problem, we fused the scFv gene against VEGF165 with a small ubiquitin-related modifier gene (SUMO) by synthesizing an artificial SUMO–scFv fusion gene that was highly expressed in the BL21(DE3) strain. The optimal expression level of the soluble fusion protein, SUMO–scFv, was up to 28.5% of the total cellular protein. The fusion protein was purified by Ni nitrilotriacetic acid (NTA) affinity chromatography and cleaved by a SUMO-specific protease to obtain the native scFv, which was further purified by Ni-NTA affinity chromatography. The result of the high-performance liquid chromatography showed that the purity of the recombinant cleaved scFv was greater than 98%. The primary structure of the purified scFv was confirmed by N-terminal amino acid sequencing and matrix-assisted laser desorption/ionization time-of-flight mass spectroscopy analysis. In vitro activity assay demonstrated that the recombinant scFv could dose-dependently inhibit VEGF165-induced human umbilical vein-derived endothelial cell proliferation. The expression strategy presented in this study allows convenient high yield and easy purification of recombinant scFv with native sequences.     

Development of single-chain Fv of antibody to DNA as intracellular delivery vehicle

Application of antibodies in most therapeutic area is limited to extracellular or membranous targets because of their impermeability of membrane. For the purpose of biotechnological and therapeutic application, developing intracellular localizing antibody is the invaluable research field. A new recombinant single-chain variable fragment of an anti-dsDNA monoclonal antibody G2-6, IgG of which has been previously shown to have a cell-penetrating activity, was engineered and produced for the use as a delivery vehicle of biomolecule(s). The penetrating capacity of single-chain variable fragment in three mammalian cell lines, L929, NIH/3T3, and COS-7 was analyzed using flow cytometry and confocal microscopy. The results demonstrated that the single-chain variable fragment can effectively internalize all three cell lines, although the internalization level varied. It was also shown that the internalization was time- and concentration-dependent. Moreover, the single-chain variable fragment was located in nuclei as well as cytoplasm of L929 cells. Overall, the G2-6 single-chain variable fragment might be a candidate vehicle which could be used to deliver specific genes or biomolecules for therapy or diagnosis into the cytoplasm or cell nucleus.     

抗MRP3单链抗体-sTRAIL融合蛋白诱导U251多形性胶质母细胞瘤凋亡

采用重组PCR技术获得抗多药耐药相关蛋白3(multidrug resistance protein 3, MRP3)的单链抗体(scFv)与人源可溶性肿瘤坏死因子相关凋亡诱导配体(soluble TNF-related apoptosis inducing ligand, sTRAIL)的融合蛋白质的基因编码序列, 利用原核表达载体pMAL-c2,构建含麦芽糖结合蛋白(maltose binding protein, MBP)标签肽的antiMRP3(scFv)-sTRAIL融合蛋白, 经亲和层析柱纯化. 获得纯化的antiMRP3(scFv)-sTRAIL融合蛋白,用MRP3阳性U251多形性胶质母细胞瘤做增殖抑制实验、细胞凋亡诱导实验,结果均显示具有明显的活性, 而MBP无明显作用. 上述结果表明,成功表达了antiMRP3(scFv)-sTRAIL融合蛋白, 该融合蛋白具有诱导U251多形性胶质母细胞瘤细胞凋亡的活性, 为开发靶向性抗肿瘤药物奠定了基础.     

Purification and characterization of a single-chain chimeric anti-p185 antibody expressed by CHO-GS system

Monoclonal antibody A21 reacts specifically with the extracellular domain of p185c-erbB-2 oncoprotein, a member of the epidermal growth factor receptor family. In a previous study, we constructed a single-chain chimeric antibody, assembled using an A21 single-chain Fv antibody and a human IgG1 Fc fragment. In this study, we expressed this chimeric antibody using a CHO-GS system, and developed a simple and efficient method for its purification. After only one step using affinity purification, the recovery rate and purity of the antibody attained was 60 and 91%, respectively. After a second step, using reverse phase HPLC purification, the purity was above 99%. The high purity of the recombinant antibody allowed us to identify a number of its intrinsic molecular properties, including antigen binding activity, measurement of affinity constant, N-terminal sequencing, and mass spectrometer analysis. These results further augment the potential of this recombinant antibody to be a drug candidate for cancer therapy.     

Antibody-mediated improved resistance to ClYVV and PVY infections in transgenic tobacco plants expressing a single-chain variable region antibody

Transgenic Nicotiana tabacum plants expressing a single-chain variable region antibody fragment derived from a broad-spectrum monoclonal antibody 3-17 showed suppression of virus infection following challenge by two distinct potyviruses: potato virus Y strain D, and clover yellow vein virus strain 300. Monoclonal antibody 3-17, which was raised against the potyvirus Johnsongrass mosaic virus, was shown to react strongly with 14 potyvirus species. Two different single-chain antibody constructs were used to produce chimeric genes encoding recombinant proteins designed to be targeted either to the apoplasm or to the cytoplasm. Transgenic plant lines showed reduced numbers of local lesions and systemic symptoms when challenged with potato virus Y, strain D and reduced local lesions following challenge with clover yellow vein virus, strain 300. The level of suppression conferred by the transgene when plants were challenged under laboratory conditions with high concentrations of virus, together with the ability of the transgene to partially protect plants against distinct viruses suggest that one single-chain gene construct might be used to protect plants from distinct potyviruses.     

Structural and functional characterization of the single-chain Fv fragment from a unique HCV E1E2-specific monoclonal antibody

The nucleotide sequence of the unique neutralizing monoclonal antibody D32.10 raised against a conserved conformational epitope shared between E1 and E2 on the serum-derived hepatitis C virus (HCV) envelope was determined. Subsequently, the recombinant single-chain Fv fragment (scFv) was cloned and expressed in Escherichia coli, and its molecular characterization was assessed using multi-angle laser light scattering. The scFv mimicked the antibody in binding to the native serum-derived HCV particles from patients, as well as to envelope E1E2 complexes and E1, E2 glycoproteins carrying the viral epitope. The scFv D32.10 competed with the parental IgG for binding to antigen, and therefore could be a promising candidate for therapeutics and diagnostics.     

特异性肝癌细胞结合单链抗体的筛选及克隆表达

用人肝癌细胞系SMMC7721免疫小鼠,提取脾细胞总RNA,构建单链抗体库,从中筛选到1个与人肝癌细胞系HepG2特异性结合的噬菌体－单链抗体。此单链抗体与HepG2细胞结合滴度比正常肝细胞低100倍以上。构建表达质粒pTrx-scFv5-56,单链抗体scFv5-56在大肠杆菌BL21（DE3）中成功地进行了可溶性表达。     

Characterization and binding of intracellular antibody fragments to the hepatitis C virus core protein.

The monoclonal antibody C7-50 binds to the HCV core protein with high sensitivity and specificity. The coding sequences of the variable domains of the antibody were determined following cDNA cloning of the Fab and sFv fragments. Subsequently, intracellular expression and binding of these antibody fragments to the HCV core protein as a potential antiviral approach were studied. There was high specificity and sensitivity of binding of bacterially expressed, recombinant C7-50 Fab to HCV core as measured by EIA and immunoblot. For expression in mammalian cells, the C7-50 antibody was subcloned in the sFv format by the introduction of a (Gly(4)Ser)(3) linker spaced between light and heavy chains. Northern and Western blot analysis as well as confocal microscopy established the targeted expression of the C7-50 sFv antibody fragment in the endoplasmic reticulum of transfected cells. The colocalization and intracellular binding of the antibody fragment to HCV core protein was confirmed by immunoprecipitation and subsequent immunoblot analysis. This study demonstrates that gene delivery of cDNA coding sequences inducing intracellular expression of C7-50 antibody fragments leads to binding of the antibody fragment to the HCV core protein within the secretory compartment of transfected cells. Intracellular immunization represents a promising antiviral approach to interfere with the life cycle of HCV.     

Helix-stabilized Fv (hsFv) antibody fragments: substituting the constant domains of a Fab fragment for a heterodimeric coiled-coil domain.

Antibody Fv fragments would in principle be useful for a variety of biotechnological applications because of their small size and the possibility to produce them in relatively large amounts in recombinant form; however, their limited stability is a drawback. To solve this problem, both domains are usually fused via a peptide linker to form a single-chain Fv (scFv) fragment, but in some cases this leads to a dimerization. We present an alternative format for stabilizing antibody Fv fragments. The C(H)1 and C(L) domain of the Fab fragment were replaced with a heterodimeric coiled coil (WinZip-A2B1), which had previously been selected using a protein-fragment complementation assay in Escherichia coli. This new antibody format was termed helix-stabilized Fv fragment (hsFv), and was compared to the corresponding Fv, Fab and single-chain Fv format. Bacterial growth and expression of the hsFv was significantly improved compared to the Fab fragment. The hsFv fragment formed a heterodimer of heavy and light chain with the expected molecular mass, also under conditions where the scFv fragment was predominantly dimeric. The hsFv fragment was significantly more stable than the Fv fragment, and nearly as stable as the scFv fragment under the conditions used (80 nM protein concentration). Thus, the format of a helix-stabilized Fv (hsFv) fragment can be a useful alternative to existing recombinant antibody formats, especially in cases where poor expression of Fab fragments or multimerization of scFv fragments is a problem.     

Transmission of louping ill virus between infected and uninfected ticks co-feeding on mountain hares

Abstract. Most of the data on oral infection of ticks by louping ill virus have been obtained from experiments in which animals were infected by syringe inoculation with infectious material. Using infected ticks to mimic the natural situation, we have demonstrated that louping ill (LI) virus transmission can occur from infected to uninfected Ixodes acinus feeding in close proximity on mountain hares (Lepus timidus). Under these conditions the hares developed either low or undetectable viraemias. Highest prevalence of LI virus infection was observed in recipient nymphs which had fed to repletion between days 3 and 7 post-attachment of virus-infected adults; following engorgement, 56% of nymphs acquired virus. These results demonstrate the efficient transmission of LI virus between co-feeding ticks on naive mountain hares. However, when ticks were allowed to co-feed on virus-immune hares a significant reduction in the frequency of infection was observed. Neither red deer (Cervus elaphus) nor New Zealand White rabbits supported transmission of LI virus. The significance of virus transmission between cofeeding ticks on LI virus epidemiology is discussed.     

The efficient intracellular sequestration of the insulin-regulatable glucose transporter (GLUT-4) is conferred by the NH2 terminus

GLUT-4 is the major facilitative glucose transporter isoform in tissues that exhibit insulin-stimulated glucose transport. Insulin regulates glucose transport by the rapid translocation of GLUT-4 from an intracellular compartment to the plasma membrane. A critical feature of this process is the efficient exclusion of GLUT-4 from the plasma membrane in the absence of insulin. To identify the amino acid domains of GLUT-4 which confer intracellular sequestration, we analyzed the subcellular distribution of chimeric glucose transporters comprised of GLUT-4 and a homologous isoform, GLUT-1, which is found predominantly at the cell surface. These chimeric transporters were transiently expressed in CHO cells using a double subgenomic recombinant Sindbis virus vector. We have found that wild-type GLUT-4 is targeted to an intracellular compartment in CHO cells which is morphologically similar to that observed in adipocytes and muscle cells. Sindbis virus-produced GLUT-1 was predominantly expressed at the cell surface. Substitution of the GLUT-4 amino-terminal region with that of GLUT-1 abolished the efficient intracellular sequestration of GLUT-4. Conversely, substitution of the NH2 terminus of GLUT-1 with that of GLUT-4 resulted in marked intracellular sequestration of GLUT-1. These data indicate that the NH2-terminus of GLUT-4 is both necessary and sufficient for intracellular sequestration.     

Recombinant full-size human antibody to Ebola virus

A full-size human antibody to Ebola virus was constructed by joining genes encoding the constant domains of the heavy and light chains of human immunoglobulin with the corresponding DNA fragments encoding variable domains of the single-chain antibody 4D1 specific to Ebola virus, which was chosen from a combinatorial phage display library of single-strand human antibodies. Two expression plasmids. pCH1 and pCL1, containing the artificial genes encoding the light and heavy chains of human immunoglobulin, respectively, were constructed. Their cotransfection into the human embryonic kidney cell line HEK293T provided the production of a full-size recombinant human antibody. The affinity constant for the antibody was estimated by solid-phase enzyme-linked immunoassay to be 7.7 x 10(7) +/- 1.5 x 10(7) M(-1). Like the parent single-chain antibody 4DI, the resulting antibody bound the nucleoprotein of Ebola virus and did not interact with the proteins of Marburg virus.     

Enhanced intracellular stability of sFv-Fc fusion intrabodies

The ability of intracellular antibodies (intrabodies) to block the function of a target protein can be dependent on the stability of the single-chain antibody (sFv) when expressed in the intracellular environment. Low-affinity sFvs capable of reaching high steady-state levels can be more effective modulators of target proteins than high-affinity, unstable sFvs. In an effort to enhance the intracellular stability of sFvs when expressed as intrabodies, we have generated novel sFv-Fc fusion intrabodies. Fusion of the native sFv sequence with the entire heavy chain constant region fragment of IgG results in decreased turnover of the intrabody and enhanced steady-state accumulation of sFv-Fc protein, while maintaining the ability to target intrabody expression to sub-cellular compartments. Here, we describe the rationale and design for this strategy using two anti-cyclin E sFvs constructed for use as intrabodies.     

Specific killing of HIV-infected lymphocytes by a recombinant immunotoxin directed against the HIV-1 envelope glycoprotein

BACKGROUND: 3B3 is a high-affinity anti-gp120 antibody that neutralizes a wide range of primary and laboratory isolates of HIV-1. The parental antibody was isolated from a combinatorial phage display library constructed from bone marrow RNA of an HIV-infected individual. We have generated a highly active immunotoxin using the 3B3 single-chain Fv (scFv) which can specifically kill lymphocytes infected by HIV-1. MATERIALS AND METHODS: We used recombinant DNA technology to clone the Fv fragment of 3B3 and produce a single-chain Fv (scFv). 3B3 scFv was then fused to a truncated version of Pseudomonas exotoxin A (PE38), giving rise to a recombinant immunotoxin 3B3(Fv)-PE38 that was expressed in E. coli and purified to near homogeneity. RESULTS: 3B3(Fv)-PE38 binds with the same affinity as the parental Fab antibody to the MN strain of gp120. The immunotoxin specifically kills a gp120-expressing transfected cell line and a chronically HIV-infected lymphocytic cell line. The immunotoxin is very stable at 37 degrees C, retaining 80% of its original activity after 24 hr. CONCLUSIONS: Potent immunotoxins such as 3B3(Fv)-PE38 could be utilized in combination with multidrug cocktails that limit viral replication to help reduce viral reservoirs in patients with AIDS.     

抗H5亚型禽流感病毒单链抗体在毕赤酵母中的分泌型表达和生物活性分析

在本实验室研制出的多株针对H5N1亚型禽流感血凝素单抗中,13D4单抗对所有H5亚型病毒均有血凝抑制和中和活性,具有特异性高、反应性强和识别广的特点,且在小鼠实验中显示了对各种代表株禽流感的感染和发病均具有良好的治疗效果。在此研究基础上,本实验通过基因工程构建含有13D4单链抗体(scFv)基因的毕赤酵母表达载体,实现目的蛋白的分泌性表达和纯化。经过竞争法和血凝抑制检测其活性,表明获得的单链抗体具有与原始鼠源抗体相近的反应活性和相同的识别表位。H5N1广谱中和单抗13D4的单链抗体的成功构建,为进一步研制针对H5N1禽流感病毒的治疗性抗体奠定了基础。