Expression,purification and characterization of anti-BAFF antibody secreted from the yeast <Emphasis Type="Italic">Pichia pastoris</Emphasis>

B-Cell activating factor (BAFF) is critical for B cell survival and maturation; excessive expression of it corrupts B-cell tolerance and may lead to autoimmunity. The gene, scFv-Fc, coding for the antibody of BAFF was inserted into the eukaryotic expression vector, pPICZαA, and transformed into Pichia pastoris. A high-level expression strain was obtained using a ‘yeastern blotting’ method. The scFv-Fc antibody was purified and 56 mg was obtained from 1 l of culture supernatant. It retained high binding activity to both soluble BAFF and membrane-bound BAFF.     

The influence of antibody fragment format on phage display based affinity maturation of IgG

Today, most approved therapeutic antibodies are provided as immunoglobulin G (IgG), whereas small recombinant antibody formats are required for in vitro antibody generation and engineering during drug development. Particularly, single chain (sc) antibody fragments like scFv or scFab are well suited for phage display and bacterial expression, but some have been found to lose affinity during conversion into IgG.

In this study, we compared the influence of the antibody format on affinity maturation of the CD30-specific scFv antibody fragment SH313-F9, with the overall objective being improvement of the IgG. The variable genes of SH313-F9 were randomly mutated and then cloned into libraries encoding different recombinant antibody formats, including scFv, Fab, scFabΔC, and FabΔC. All tested antibody formats except Fab allowed functional phage display of the parental antibody SH313-F9, and the corresponding mutated antibody gene libraries allowed isolation of candidates with enhanced CD30 binding. Moreover, scFv and scFabΔC antibody variants retained improved antigen binding after subcloning into the single gene encoded IgG-like formats scFv-Fc or scIgG, but lost affinity after conversion into IgGs. Only affinity maturation using the Fab-like FabΔC format, which does not contain the carboxy terminal cysteines, allowed successful selection of molecules with improved binding that was retained after conversion to IgG. Thus, affinity maturation of IgGs is dependent on the antibody format employed for selection and screening. In this study, only FabΔC resulted in the efficient selection of IgG candidates with higher affinity by combination of Fab-like conformation and improved phage display compared with Fab.     

The influence of antibody fragment format on phage display based affinity maturation of IgG

Today, most approved therapeutic antibodies are provided as immunoglobulin G (IgG), whereas small recombinant antibody formats are required for in vitro antibody generation and engineering during drug development. Particularly, single chain (sc) antibody fragments like scFv or scFab are well suited for phage display and bacterial expression, but some have been found to lose affinity during conversion into IgG.   In this study, we compared the influence of the antibody format on affinity maturation of the CD30-specific scFv antibody fragment SH313-F9, with the overall objective being improvement of the IgG. The variable genes of SH313-F9 were randomly mutated and then cloned into libraries encoding different recombinant antibody formats, including scFv, Fab, scFabΔC, and FabΔC. All tested antibody formats except Fab allowed functional phage display of the parental antibody SH313-F9, and the corresponding mutated antibody gene libraries allowed isolation of candidates with enhanced CD30 binding. Moreover, scFv and scFabΔC antibody variants retained improved antigen binding after subcloning into the single gene encoded IgG-like formats scFv-Fc or scIgG, but lost affinity after conversion into IgGs. Only affinity maturation using the Fab-like FabΔC format, which does not contain the carboxy terminal cysteines, allowed successful selection of molecules with improved binding that was retained after conversion to IgG. Thus, affinity maturation of IgGs is dependent on the antibody format employed for selection and screening. In this study, only FabΔC resulted in the efficient selection of IgG candidates with higher affinity by combination of Fab-like conformation and improved phage display compared with Fab.     

Construction and expression of anti-Tn-antigen-specific single-chain antibody genes from hybridoma producing MLS128 monoclonal antibody

Anti-Tn-antigen monoclonal antibody MLS128 has affinity for three consecutive Tn-antigens (Tn3) more than Tn2. The major aim of this study was to isolate genes encoding MLS128 variable domains to produce a large quantity of recombinant MLS128 antibodies, in turn, allowing the conduct of studies on precise interactions between Tn3- or Tn2-epitopes and MLS128. This study describes cloning of the variable region genes of MLS128, construction of the variable region genes in single-chain variable fragments (scFv) and two scFvs conjugated with human IgG(1) hinge and Fc regions (scFv-Fc) types, and their respective expression in bacterial and mammalian cell. MLS128 scFv protein with the expected specificity and affinity was successfully prepared from inclusion bodies accumulating in Escherichia coli. Construction, expression and purification of two types of MLS128-scFv-Fc proteins with differing linker lengths in Chinese hamster ovary cells demonstrated that the purified scFv-Fc proteins had binding activity specific to the glycoprotein-expressing Tn-antigen clusters. These results revealed that VL and VH genes cloned from the hybridoma represent those of MLS128 and that recombinant antibodies produced from these genes should provide sufficient amounts of binding domains for use in 3D structural studies such as NMR and X-ray analysis.     

Pichia pastoris酵母中表达人源中和性抗甲型肝炎病毒scFv-Fc融合抗体的研究

为了探讨人源抗甲型肝炎（甲肝）病毒scFv—Fc融合抗体在酵母中的表达特性,将获得的人源抗甲肝病毒中和性单链可变区抗体（scFv抗体）基因克隆入含信号肽及人IgG1Fc抗体基因的酵母细胞表达载体中,获得了一株中和性人源抗甲肝病毒pPiscFv—FcHA16融合抗体的分泌表达,并对表达产物进行了纯化。同时对表达产物的生物学特性进行了一系列鉴定。表达的pPiscFv—FcHA16融合抗体为具有不同糖基化形式的同源二聚体,与相应的CHO细胞表达的IgG抗体相比,pPiscFv—FcHA16融合抗体仍保持很好的抗原结合活性,以及与中和性鼠抗甲肝病毒单克隆抗体的竞争抑制能力。同时也保持了对甲肝病毒的体外中和活性。这些结果表明,在酵母中表达的单链可变区（scFv）与IgG1Fc区的融合抗体具有很好的生物学活性,有希望用做体外诊断,用纯化相应的抗原,或者可能用于体内预防与治疗。     

Multimerization of a chimeric anti-CD20 single-chain Fv-Fc fusion protein is mediated through variable domain exchange.

A series of single-chain anti-CD20 antibodies was produced by fusing single-chain Fv (scFv) with human IgG1 hinge and Fc regions, designated scFv-Fc. The initial scFv-Fc construct was assembled using an 18 amino acid (aa) linker between the antibody light- and heavy-chain variable regions, with the Cys residue in the upper hinge region (Kabat 233) mutagenized to Ser. Anti-CD20 scFv-Fc retained specific binding to CD20-positive cells and was active in mediating complement-dependent cytolysis. Size-exclusion HPLC analysis revealed that the purified scFv-Fc included multimeric as well as monomeric components. Variant scFv-Fcs were constructed incorporating four different hinges between the scFv and Fc regions, or three different linkers in the scFv domain. All formed multimers, with the highest level of multimerization found in the scFv-Fc with the shortest linker (8 aa). Elimination of an unusual salt bridge between residues L38 and H89 in the V(L)-V(H) domain interface failed to reduce the formation of higher order forms. Structural analysis of the scFv-Fc constructed with 18 or 8 aa linkers by pepsin or papain cleavage suggested the proteins contained a form in which scFv units had cross-paired to form a 'diabody'. Thus, domain exchange or cross-pairing appears to be the basis of the observed multimerization.     

Fucose removal from complex-type oligosaccharide enhances the antibody-dependent cellular cytotoxicity of single-gene-encoded bispecific antibody comprising of two single-chain antibodies linked to the antibody constant region

Bispecific antibodies (bsAbs) have the potential to extend binding selectivity, increase avidity and exert potent cytotoxicity due to the combination of dual specificities. scFv2-Fc type of single-gene-encoded bispecific antibody, composed of two different single-chain Fvs and an Fc, has been reported to be capable of binding to different antigens. The aim of this study was to determine the effect of fucose removal on effector functions of scFv2-Fc since fucose depletion from oligosaccharide of human IgG1 and scFv-Fc results in significant enhancement of ADCC. We generated novel single-gene-encoded bsAb with dual specificity against tumor associated glycoprotein (TAG)-72 and MUC1 mucin as fucose-negative scFv2-Fc from alpha-1,6-fucosyltransferase knock-out CHO cells and a highly fucosylated scFv2-Fc comparator from parental CHO cells. Expression, assembly and the antigen-binding activity of the scFv2-Fc were not influenced by removal of fucose. The fucose negative scFv2-Fc bound with higher avidity to FcgammaRIIIa and enhanced ADCC compared to the highly fucosylated scFv2-Fc. These results demonstrate that ADCC-enhancement by removal of fucose is effective in not only whole IgG1 and scFv-Fc, but also scFv2-Fc targeting two different antigens, and thus increases the potential of fucose-negative scFv2-Fcs as novel therapeutic candidates.     

Development of tibulizumab,a tetravalent bispecific antibody targeting BAFF and IL-17A for the treatment of autoimmune disease

ABSTRACT

We describe a bispecific dual-antagonist antibody against human B cell activating factor (BAFF) and interleukin 17A (IL-17). An anti-IL-17 single-chain variable fragment (scFv) derived from ixekizumab (Taltz®) was fused via a glycine-rich linker to anti-BAFF tabalumab. The IgG-scFv bound both BAFF and IL-17 simultaneously with identical stoichiometry as the parental mAbs. Stability studies of the initial IgG-scFv revealed chemical degradation and aggregation not observed in either parental antibody. The anti-IL-17 scFv showed a high melting temperature (Tm) by differential scanning calorimetry (73.1°C), but also concentration-dependent, initially reversible, protein self-association. To engineer scFv stability, three parallel approaches were taken: labile complementary-determining region (CDR) residues were replaced by stable, affinity-neutral amino acids, CDR charge distribution was balanced, and a H44-L100 interface disulfide bond was introduced. The Tm of the disulfide-stabilized scFv was largely unperturbed, yet it remained monodispersed at high protein concentration. Fluorescent dye binding titrations indicated reduced solvent exposure of hydrophobic residues and decreased proteolytic susceptibility was observed, both indicative of enhanced conformational stability. Superimposition of the H44-L100 scFv (PDB id: 6NOU) and ixekizumab antigen-binding fragment (PDB id: 6NOV) crystal structures revealed nearly identical orientation of the frameworks and CDR loops. The stabilized bispecific molecule LY3090106 (tibulizumab) potently antagonized both BAFF and IL-17 in cell-based and in vivo mouse models. In cynomolgus monkey, it suppressed B cell development and survival and remained functionally intact in circulation, with a prolonged half-life. In summary, we engineered a potent bispecific antibody targeting two key cytokines involved in human autoimmunity amenable to clinical development.     

Construction and characterization of an enhanced GFP-tagged anti-BAFF scFv antibody

Elevated levels of B-cell-activating factor of the TNF family (BAFF) have been implicated in the pathogenesis of autoimmune diseases in human. In this study, an anti-BAFF single-chain antibody fragment (scFv) was genetically linked to the C terminus of the enhanced green fluorescent protein (EGFP) to generate an EGFP/scFv fusion protein. The EGFP/scFv fusion protein had an apparent molecular weight of 52 kDa and was identified by sodium dodecyl sulfate polyacrylamide gel electrophoresis and Western blot analysis. After being purified by immobilized metal affinity chromatography, the fusion protein exhibited similar fluorescence spectra with native EGFP. Enzyme-linked immunosorbent assay and fluorescence-activated cell sorting showed the EGFP/scFv could bind to human soluble BAFF and BAFF positive cell lines in vitro. The binding of EGFP/scFv can also be visualized under laser scanning confocal microscopy. Furthermore, the results of the competition assay indicated its antigen binding specificity. Therefore, the fusion protein EGFP/scFv has several characteristics including high sensitivity, stability and convenience for manipulation, and can be a powerful tool for the study of the underlying pathology of BAFF relevant to autoimmune diseases.     

Single-chain Fv with Fc fragment of the human IgG1 tag: construction, Pichia pastoris expression and antigen binding characterization

We report two expression vectors in Pichia pastoris that direct the synthesis of recombinant single chain antibody variable region (scFv), derived from anti-Z-DNA monoclonal antibody Z22. The first vector codes for a scFv fused to the Ig binding domain of staphylococcal Protein A. The second vector codes for the scFv fused to the Fc fragment of the human IgG1. The fusion partner simplified the detection and purification of the secreted protein. These constructs yielded high level expression of an scFv with specific binding activity toward a Z form of DNA, with binding activity comparable to that of the scFv molecule produced in an Escherichia coli expression system and the original monoclonal antibody.     

Thermodynamic basis for antibody binding to Z-DNA: comparison of a monoclonal antibody and its recombinant derivatives

Antibody engineering represents a promising area in biotechnology. Recombinant antibodies can be easily manipulated generating new ligand and effector activities that can be used as prototype magic bullets. On the other hand, an extensive knowledge of recombinant antibody binding and stability features are essential for an efficient substitution. In this study, we compared the stability and protein binding properties of two recombinant antibody fragments with their parental monoclonal antibody. The recombinant fragments were a monomeric scFv and a dimeric one, harboring human IgG1 CH2-CH3 domains. We have used fluorescence titration quenching to determine the thermodynamics of the interaction between an anti-Z-DNA monoclonal antibody and its recombinant antibody fragments with Z-DNA. All the antibody fragments seemed to bind DNA similarly, in peculiar two-affinity states. Enthalpy-entropy compensation was observed for both affinity states, but a marked entropy difference was observed for the monomeric scFv antibody fragment, mainly for the high affinity binding. In addition, we compared the stability of the dimeric antibody fragment and found differences favoring the monoclonal antibody. These differences seem to derive from the heterologous expression system used.     

Isolation and characterization of phage-displayed single chain antibodies recognizing nonreducing terminal mannose residues. 2. Expression, purification, and characterization of recombinant single chain antibodies

Since phage-display technology is probably the best available strategy to produce antibodies directed against various carbohydrate moieties, we employed phage-display technology to generate human single chain antibodies (scFvs) using neoglycolipids as carbohydrate antigens. An accompanying paper in this issue describes how phage-displayed antibodies (phage Abs) that recognized nonreducing terminal mannose residues were isolated and characterized. In this study, four independent scFv genes, isolated by a mannotriose (Man3)-bearing lipid as an antigen as previously described, were used to construct expression vectors to produce soluble scFv proteins in quantity. Both bacterial and mammalian expression systems were used to produce glutathione S-transferase-scFv fusion proteins and scFv-human IgG1 Fc conjugates, respectively. The expressed scFv fusion proteins were purified to apparent homogeneity with yields of approximately 1 and 48 mg, from 1 L of bacterial culture and myeloma cell media, respectively. Surface plasmon resonance and ELISA analyses confirmed that purified scFv proteins showed Man3 specificity. The humanized antibody in scFv-Fc form, derived from clone 5A3, was a disulfide-liked dimer with a molecular mass of 108 kDa. According to a bivalent model, the kinetics parameters of its binding to Man3 were determined to be ka = 4.03 x 104 M-1 s-1, kd = 5.77 x 10-4 s-1, KA = 6.98 x 107 M-1, and KD = 1.43 x 10-8 M. This study thus established the foundation for isolation of carbohydrate-specific scFv genes and eventual production of humanized scFv-Fc type antibodies.     

A recombinant anti-erbB2, scFv-Fc-IL-2 fusion protein retains antigen specificity and cytokine function

Elevated erbB2 expression is detected in many in situ and invasive human ductal carcinomas. Anti-erbB2 antibody directed at the extracellular domain of erbB2 can result in an antitumor response in some patients with tumors overexpressing erbB2 oncoprotein. By combining interleukin 2 (IL-2) activities with a tumor specific antibody, immunotherapy of tumors might be more effective in the future. In this study, a fusion protein consisting of erbB2 single chain antibody (scFv), Fc fragment of human IgG1 and IL-2 was constructed. The molecular weight of fusion proteins is 66 kDa, only one third of whole antibody-IL-2 fusion protein or 44% whole Ig molecule. The fusion proteins retained the activities of both antigen binding and IL-2. The scFv-Fc-IL-2 fusion protein may have advantages over whole antibody-IL-2 fusion proteins, such as smaller molecule, better activity of penetration, more favorable pharmacokinetic properties.     

一种融合抗体ScFv-Fc通用表达载体的构建

为了构建一个可供自由替换的ScFv区,表达人小分子融合抗体ScFv-Fc的通用载体,利用RT-PCR技术扩增人抗体IgG1的Fc片段克隆至毕赤酵母表达载体pPICZα,将一段人工合成的互补寡核苷酸链插入重组载体pPICZα/Fc中Fc区的上游,引入2个可供小分子抗体ScFv-Fc的ScFv区自由替换的限制性酶切位点。分别扩增人抗狂犬病毒以及抗乙型肝炎表面抗原的ScFv片段,克隆至已构建的通用载体pPICZα/Fc,在毕赤酵母中诱导表达。进一步在1L条件下对活性抗体进行发酵,并利用protein A亲和层析柱进行纯化。应用酵母基因组PCR、ELISA、Western blotting、活性检测等试验对此小分子抗体的表达进行生物学及免疫学分析。结果表明具有狂犬病毒抗原结合活性以及乙肝表面抗原结合活性的人源抗体分子均获得成功表达,1L发酵条件下表达量达到20~30mg/L, protein A亲和层析纯化后纯度＞95%。研究构建了可用于功能性抗体分子ScFv-Fc筛选和表达的通用载体并对其发酵、纯化条件进行了摸索,为重组抗体分子诊断、治疗试剂的开发以及抗体的人源化奠定了物质基础。     

Single-chain antibodies against human insulin-like growth factor I receptor: expression, purification, and effect on tumor growth

Insulin-like growth factors (IGF) I and II are potent mitogens for a variety of cancer cells. The proliferative and anti-apoptotic actions of IGF are mediated by the IGF-I receptor (IGF-IR), to which both IGF-I and IGF-II bind with high affinity. To investigate the mitogenic and anti-apoptotic activities of IGF-IR and to achieve better inhibition of IGF-IR function, single-chain antibodies against human IGF-IR (αIGF-IR scFvs) were constructed and expressed. IgG cDNA encoding variable regions of light and heavy chains (V_L and V_H) from mouse IgG were cloned from a hybridoma producing the 1H7 αIGF-IR monoclonal antibody [Li et al., Biochem Biophys Res Commun 196: 92–98 (1993)]. The splice-overlap extension polymerase chain reaction was used to assemble a gene encoding the αIGF-IR scFv, including the N-terminal signal peptide, V_L, linker peptide, V_H, and C-terminal DYKD tag. Two types of soluble αIGF-IR scFvs, a prototype αIGF-IR scFv and its alternative type αIGF-IR scFv-Fc, were constructed and expressed in murine myeloma cells. αIGF-IR scFv-Fc, containing the human IgG1 Fc domain, was stably expressed in NS0 myeloma cells, using a glutamine synthase selection system, and purified from the conditioned medium of stable clones by protein-A–agarose chromatography. Levels of αIGF-IR scFv-Fc expression ranged from 40 mg/l to 100 mg/l conditioned medium. Sodium dodecyl sulfate/polyacrylamide gel electrophoresis analysis under reducing and nonreducing conditions indicated that αIGF-IR scFv-Fc is a dimeric antibody. αIGF-IR scFv-Fc retained general characteristics of the parental 1H7 monoclonal antibody except that its binding affinity for IGF-IR was estimated to be approximately 10⁸ M⁻¹, which was one-order of magnitude lower than that of 1H7 monoclonal antibody. Injection of αIGF-IR scFv-Fc (500 μg/mouse, twice a week) significantly suppressed MCF-7 tumor growth in athymic mice. These results suggest that the αIGF-IR scFv-Fc is a first-generation recombinant αIGF-IR for the potential development of future αIGF-IR therapeutics. Received: 21 January 2000 / Accepted: 7 March 2000     

Generation of high-affinity fully human anti-interleukin-8 antibodies from its cDNA by two-hybrid screening and affinity maturation in yeast

We have developed a technology for rapidly generating novel and fully human antibodies by simply using the antigen DNA. A human single‐chain variable fragment (scFv) antibody library was constructed in a yeast two‐hybrid vector with high complexity. After cloning cDNA encoding the mature sequence of human interleukin‐8 (hIL8) into the yeast two‐hybrid system vector, we have screened the human scFv antibody library and obtained three distinct scFv clones that could specifically bind to hIL8. One clone was chosen for further improvement by a novel affinity maturation process using the error‐prone PCR of the scFv sequence followed by additional rounds of yeast two‐hybrid screening. The scFv antibodies of both primary and affinity‐matured scFv clones were expressed in E. coli. All purified scFvs showed specific binding to hIL8 in reciprocal coimmunoprecipitation and ELISA assays. All scFvs, as well as a fully human IgG antibody converted from one of the scFv clones and expressed in the mammalian cells, were able to effectively inhibit hIL8 in neutrophil chemotaxis assays. The technology described can generate fully human antibodies with high efficiency and low cost.     

Construction and characterization of single-chain antibodies against human insulin-like growth factor-I receptor from hybridomas producing 1H7 or 3B7 monoclonal antibody

Recombinant antibody consisting of the single-chain variable fragment (scFv) of 1H7 monoclonal antibody against insulin-like growth factor-I receptor (IGF-IR) and human IgG(1) Fc domain, scFv-Fc, has been found to exhibit inhibitory effects on breast cancer growth in vitro and in vivo [Li et al. (2000) Cancer Immunol. Immunother. 49, 243; Sachdev et al. (2003) Cancer Res. 63, 627]. Various types of scFvs from hybridomas producing 1H7 or 3B7 mAb were constructed using conventional phage display technology to further characterize the specificity and affinity of anti-IGF-IR mAbs. Binding studies performed using either phage antibodies or soluble scFv proteins to IGF-IR or insulin receptor (IR) and IGF-IR pre-incubated with mAbs suggested that (i) 1H7 and 3B7 bind to IGF-IR but do not bind to its structurally related IR, (ii) either the VL-VH or VH-VL sequence order does not apparently affect specificity for IGF-IR and (iii) 1H7 and 3B7 bind the independent epitopes, located in or near the N-terminal (440-514) and C-terminal (62-184) domains of the alpha subunit, respectively. This study not only revealed new information on binding regions for two anti-IGF-IR mAbs, but also provided the scFv genes as tools for further manipulation of the affinity or development of new IGF-IR-targeted cancer therapeutics.     

Baculoviral display of functional scFv and synthetic IgG-binding domains

Viral vectors displaying specific ligand binding moities such as scFv fragments or intact antibodies hold promise for the development of targeted gene therapy vectors. In this report we describe baculoviral vectors displaying either functional scFv fragments or the synthetic Z/ZZ IgG binding domain derived from protein A. Display on the baculovirus surface was achieved via fusion of the scFv fragment or Z/ZZ domain to the N-terminus of gp64, the major envelope protein of the Autographa californica nuclear polyhedrosis virus, AcNPV. As examples of scFv fragments we have used a murine scFv specific for the hapten 2-phenyloxazolone and a human scFv specific for carcinoembryonic antigen. In principle, the Z/ZZ IgG binding domain displaying baculoviruses could be targeted to specific cell types via the binding of an appropriate antibody. We envisage applications for scFv and Z/ZZ domain displaying baculoviral vectors in the gene therapy field.     

Production of functionalized single-chain Fv antibody fragments binding to the ED-B domain of the B-isoform of fibronectin in Pichia pastoris

The Pichia pastoris expression system was used to produce functionalized single-chain antibody fragments (scFv) directed against the ED-B domain of the B-fibronectin (B-Fn) isoform which was found to be present only in newly formed blood vessels during tumor angiogenesis. Therefore, scFv antibody fragments recognizing the ED-B domain are potential markers for angiogenesis. We constructed four functionalized scFv antibody fragments for direct labeling with radioactive molecules or toxins or for attachment to liposomes serving as carriers for cytotoxic or antiangiogenic compounds. The C-termini of the scFv antibody fragments contain 1-3 cysteine residues that are separated by a hydrophilic linker (GGSSGGSSGS) from the binding domain and are accessible for site-specific functionalization with thiol-reactive reagents. Plasmid expression, culture conditions, and purification were optimized in 1-L cultures. The scFv antibody fragments were purified by anion exchange chromatography. The yields were 5-20 mg/L culture medium. The large-scale production of one scFv antibody fragment in a 3.7-L fermenter gave a yield of 60 mg. The reactivity of the cyteines was demonstrated by labeling with the thiol-reactive fluorescent dye ABD-F. The four scFv antibody fragments bound specifically to ED-B-modified Sepharose and binding was further confirmed by immunofluorescence on cell cultures using ED-B-positive human Caco-2 tumor cells. Furthermore, we could demonstrate specific binding of scFv-modified liposomes to ED-B-positive tumor cells. Our results indicate that the P. pastoris expression system is useful for the large-scale production of cysteine-functionalized alpha-ED-B scFv antibody fragments.     

Combined effects of tamoxifen and a chimeric humanized single chain antibody against the type I IGF receptor on breast tumor growth in vivo.

Proliferative and anti-apoptotic actions of IGFs are mediated by the IGF-I receptor (IGF-IR), to which both IGF-I and -II bind with high affinity. We previously reported that alphaIGF-IR scFv-Fc (scFv-Fc) consisting of the alphaIGF-IR scFv and human IgG (1) Fc domain retained general characteristics of the parental 1H7 monoclonal antibody, and significantly suppressed MCF-7 tumor growth. We proposed IGF-IR down-regulation as a possible mechanism for inhibition of MCF-7 tumor growth. To further determine the therapeutic potentials of this approach, in vivo effects of this antibody on breast tumor growth were evaluated in the absence or presence of tamoxifen (Tam) using a T61 human breast tumor model. T61 xenograft growth in athymic mice was compared under five conditions, PBS, scFv-Fc, Tam, scFv-Fc+Tam, and control antibody. While treatment with PBS and control antibody did not affect T61 tumor growth, scFv-Fc, Tam, and scFv-Fc+Tam treatments significantly suppressed the tumor growth during the first two weeks of treatment. Although the growth inhibitory effect of scFv-Fc during the first two weeks was significant, the tumor grew as rapidly as PBS-treated tumors thereafter. This rapid tumor growth was suppressed when scFv-Fc was combined with Tam. Throughout four weeks, the combined Tam+scFv-Fc treatment was more effective in inhibiting the T61 tumor growth than scFv-Fc or Tam treatment alone. scFv-Fc treatment down-regulated IGF-IR which appears to contribute to tumor growth inhibition. This study provides evidence that simultaneous targeting of IGF-IR and the estrogen receptor may enhance the therapeutic effect.