Di-diabody: a novel tetravalent bispecific antibody molecule by design

The clinical development of bispecific antibodies (BsAb) as therapeutics has been hampered by the difficulty in preparing the materials in sufficient quantity and quality by traditional methods. In recent years, a variety of recombinant methods have been developed for efficient production of BsAb, both as antibody fragments and as full-length IgG-like molecules. These recombinant antibody molecules possess dual antigen-binding capability with, in most cases, monovalency to each of their target antigens. Here, we describe an efficient approach for the production of a novel tetravalent BsAb, with two antigen-binding sites to each of its target antigens, by genetically fusing a bispecific/divalent diabody to, via the hinge region, the N-terminus of the CH(3) domain of an IgG. The novel BsAb, which we termed "di-diabody", represents a tetravalent diabody dimer resulting from dimerization between the hinge region and the CH(3) domains. A di-diabody was constructed using two antibodies directed against the two tyrosine kinase receptors of vascular endothelial growth factor, expressed both in a single Escherichia coli host and in mammalian cells, and purified to homogeneity by a one-step affinity chromatography. Compared to the bispecific/divalent diabody, the tetravalent di-diabody binds more efficiently to both of its target antigens and is more efficacious in blocking ligand binding to the receptors. The di-diabody retained good antigen-binding activity after incubation at 37 degrees C in mouse serum for 72 h, demonstrating good product stability. Finally, expression of the di-diabody in mammalian cells yielded higher level of production and better antibody activity. This design and expression for BsAb fragments should be applicable to any pair of antigen specificities.     

Acquired antagonistic activity of a bispecific diabody directed against two different epitopes on vascular endothelial growth factor receptor 2

Bispecific antibody (BsAb) technology has been successfully used as a means to construct novel antibody (Ab) molecules with increased avidity for binding, by combining two Ab or their fragments directed against different epitopes within the same antigen. Using two single chain antibodies (scFv) isolated from a phage display library, we have constructed a bispecific diabody directed against two different epitopes on the extracellular domain (ECD) of human vascular endothelial growth factor receptor 2 (VEGFR2), the kinase-insert domain-containing receptor (KDR). Neither of the parent scFv blocks KDR/VEGF interactions or inhibits VEGF-induced receptor activation. The diabody binds to KDR with an affinity that is 1.5- to 3-fold higher than its parent scFv, mainly due to a much slower dissociation rate (k_off), which is approximately 17- to 26-fold slower than that of the individual scFv. In addition, the diabody binds simultaneously to, and thus cross-links, the two epitopes on the receptor(s). It is rather unexpected that the diabody effectively blocked KDR/VEGF interactions, and inhibited both VEGF-induced activation of the receptor and mitogenesis of human endothelial cells. Taken together, our results suggest that the diabody is most likely to exert its effect through steric hindrance and/or causing major conformational changes of the receptor. This is the first report on the construction of a bispecific diabody with acquired novel antagonistic activity.     

Single variable domain antibody as a versatile building block for the construction of IgG-like bispecific antibodies

Bispecific antibodies (BsAb) have been traditionally utilized to redirect cytotoxic effector cells and agents to kill tumor cells expressing the target antigens. Recently a new concept is emerging to develop BsAb that simultaneously block the functions of two tumor-associated targets, eg., growth factor receptors, for enhanced antitumor efficacies. Broad clinical applications of BsAb have been, and still are, significantly hampered by the difficulty in producing the materials in sufficient quantity and quality by traditional approaches. Here we describe a recombinant approach for the production of an Fc domain-containing, IgG-like tetravalent BsAb, using a single variable domain (sVD) antibody as a versatile building block. In this method, a sVD of a defined specificity is genetically fused to either the N-terminus of the light chain or the C-terminus of the heavy chain of a functional IgG antibody of a different specificity. A model BsAb was constructed using a sVD to mouse platelet derived growth factor receptor alpha and a conventional IgG antibody to mouse platelet derived growth factor receptor beta. The BsAb were expressed in mammalian cells and purified to homogeneity by a one-step Protein A affinity chromatography. Further, the BsAb retained the antigen binding specificity and the receptor neutralizing activity of both of its parent antibodies. Importantly, the BsAb inhibited the activation of both its target receptors in tumor cells stimulated by both platelet derived growth factor AA and BB, whereas the parent monospecific antibody only inhibited the activation of a single receptor stimulated by its cognate ligand. This format of BsAb should be readily applicable to the production of other BsAb recognizing any pairs of antigens.     

A new format of bispecific antibody: highly efficient heterodimerization, expression and tumor cell lysis

Bispecific antibodies (BsAbs) have been considered as potential therapeutics for cancer. A major obstacle in the development of BsAb has been the difficulty in producing a heterodimer with two different arms and in sufficient quantity for clinical application by the traditional methods. We describe a new format of BsAb that consists of two single-chain variable fragment of antibodies (scFvs), one for human epidermal growth factor receptor 2 (HER2)/neu and the other for CD16, heterodimerized by a "knobs-into-holes" device from the CH3 domains of the human IgG1 Fc fragment. The two chains were functionally expressed in CHO cells and assembled into heterodimers with dual antigen-binding specificity. Compared with other types of engineered BsAbs expressed in mammalian cells, the yield of this BsAb was relatively high (12-14 mg/l). In vitro experiments demonstrated that the BsAb was able to recruit human peripheral blood mononuclear cells (PBMC) to kill SK-BR-3 cells more effectively than the commercial anti-HER2/neu antibody Herceptin (Roche, Shanghai). This new format of BsAb possesses properties that support its potential as a new antitumor agent.     

抗人膀胱癌/抗VEGF双功能基因抗体制备及体外效应研究

目的：研究制备抗人膀胱癌和抗血管内皮生长因子的双功能抗体，用以导向抑制肿瘤新生血管的形成。方法：在制备抗人膀胱癌和抗血管内皮细胞生长因子单克隆抗体的基础上制备双功能抗体。结果：双功能抗体的IC50为10^-9.5，抗血管内皮生长因子抗体的IC50为10^-8.9，抗人膀胱移行细胞癌单克隆抗体的IC50为10^-8.3。结论：双功能抗体的有效率明显高于单克隆抗体。     

Both VH and VL chains of polyreactive IgM antibody are required for polyreactivity: expression of Fab in Escherichia coli.

Monoclonal polyreactive antibodies can bind to many structurally dissimilar self and non-self antigens. Neither the precise antigen-binding site on the polyreactive antibody molecule nor the molecular basis of polyreactivity has been elucidated. The present study was initiated to see whether antibody genes encoding the Fab fragment of a human monoclonal polyreactive IgM antibody (MoAb 67) could be efficiently expressed in Escherichia coli, and whether the bacterially expressed Fab fragments possessed biological activity. cDNA encoding the variable domains of the heavy and light chains of MoAb 67 were cloned, amplified by polymerase chain reaction (PCR) and expressed in E. coli. Neither the recombinant heavy nor light chain showed antigen-binding activity. In contrast, the recombinant Fab 67 fragment showed the same antigen-binding reactivity profile as the native IgM antibody. It is concluded that the antigen-binding activity of polyreactive antibodies resides in the Fab fragment, and that both the heavy and light chains are required for activity.     

亲和层析法提纯双特异单克隆抗体

本文介绍了用亲和层析法从抗HRP-抗HBsAg双特异单克隆抗体的8B_6腹水中纯化,获得的四个组份蛋白,经过EL1SAg测定证实为抗HRP-抗HBsAs双特异单克隆抗体、抗HRP单抗、抗HBsAg单抗和无反应活性免疫球蛋白.因此,建议可以用亲和层析法简便地提纯出高纯度的双特异单克隆抗体.     

IgG型抗CD55×抗β-Gal基因工程双特异性抗体的构建

目的　探讨用生物学方法治疗病毒感染性疾病及肿瘤的新途径。方法　以有重要补体活化调节功能的膜补体调节蛋白CD5 5为靶点 ,以 β GaL为模拟病毒或肿瘤抗原 ,制备“IgG”型抗CD5 5×抗 β Gal基因工程双特异性抗体 ,并对该重组抗体真核表达后的结合活性进行初步的验证。结果　克隆的CD5 5抗体可变区片段为新的小鼠抗体可变区片段 ,经HEK 2 93细胞表达后的重组抗体显示了良好的CD5 5及Fc结合活性。结论　本研究为病毒性疾病或肿瘤的免疫学治疗提供了新的途径及实验依据     

Intracellular and cell surface displayed single-chain diabodies.

Intracellularly expressed antibody fragments have found various applications in therapy by virtue of their ability to inhibit the function of cellular proteins or interfere with subcellular trafficking. Bivalent antibody fragments might further improve this inhibitory potential by increasing the functional affinity and bispecific antibody fragments may also be useful for the intracellular retargeting of molecules. Here, we have evaluated the functional expression of intracellular diabodies. A previously constructed secreted bispecific single-chain diabody directed against carcinoembryonic antigen and Escherichia coli beta-galactosidase was modified for subcellular targeting to the cell surface membrane, endoplasmic reticulum, mitochondria, cytoplasm, and nucleus. Subcellular localisation was analysed by immunofluorescence, and the assembly of functional antibodies was analysed by binding of beta-galactosidase to the antibody fragment and subsequent substrate conversion. Bispecific single-chain diabodies could be directed to all subcellular compartments analysed. However, functional assembly was only observed for single-chain diabodies retained in the endoplasmic reticulum or displayed in the cell membrane while no antigen binding activity was seen with diabodies directed to the cytoplasm, nucleus, or mitochondria. The results demonstrate the functional expression of bispecific recombinant antibody fragments in the secretory pathway and integration into the plasma membrane of mammalian cells.     

Release of Cytokines and Soluble Cell Surface Molecules by PBMC after Activation with the Bispecific Antibody CD3 × CD19

Bispecific antibodies (BsAb) consist of two different heavy and light chains and may bind to two different antigens present on different cell types. With their dual specificity BsAb may recognize effector cells (e.g. T cells) on one hand and tumour cells (e.g. malignant B cells) on the other hand. The authors analysed whether T cell activation and subsequent killing of malignant B cells mediated by the bispecific antibody CD3 × CD19 was reflected by the release of cytokines. In addition, the authors investigated whether the in vitro cytokine release was similar to that observed in vivo in the patients treated with BsAb. The in vitro release of cytokines into the supernatant of cell cultures of peripheral blood mononuclear cells (PBMC) and malignant B cells was measured after incubation with either the bispecific antibody CD3 × CD19 or the monospecific anti-CD3 (aCD3) antibody in the presence or absence of interleukin (IL)-2. Release of tumour necrosis factor-α (TNF-α), interferon-γ (IFN-γ), IL-6, IL-8, IL-10, soluble (s) CD4, sCD8 and sCD25 by PBMC was equal under both conditions and could be used as an indicator for T cell activation. However, the cytokine pattern and level did not correlate with the cytotoxic capacity, which was 4 logs higher with BsAb + IL-2 compared to aCD3 + IL-2. The in vitro pattern of cytokine release was similar to that observed in vivo in the serum of patients treated with BsAb and IL-2, indicating the possibility of predicting cytokine release in future patients with other therapeutic regimens.     

Bispecific anti-human red blood Rhesus-D antigen x anti Fc gamma RI targeted antibody-dependent cell-mediated cytotoxicity and phagocytosis by mononuclear leucocytes.

The Fc receptor mediated antibody-dependent cell-mediated cytotoxicity (ADCC) and phagocytosis induced by bispecific antibody (BsAb) to the high-affinity Fc receptor for IgG (Fc gamma RI) and to human red blood group antigen RhD were studied in vitro, using human mononuclear leucocytes as effector cells. The results were compared with those obtained by using a human monoclonal IgG1 anti-RhD used alone and a reference human polyclonal anti-RhD antibody. The effect of non-specific human IgG on FcR-mediated functions by mononuclear leucocytes was checked. The results demonstrate that BsAb presents a high resistance of Fc-mediated function to blockade by non-specific human IgG compared with that of both polyclonal and monoclonal anti-RhD antibodies. These results further encourage possible clinical application of bispecific antibody in passive immunotherapy.     

Normal human immunoglobulin G4 is bispecific: it has two different antigen-combining sites.

Unlike other immunoglobulin G (IgG) subclasses, IgG4 antibodies in plasma have been reported to be functionally monovalent. In this paper we show that the apparent monovalency of circulating IgG4 is caused by asymmetry of plasma IgG4. A large fraction of plasma IgG4 molecules have two different antigen-binding sites, resulting in bispecificity. Sera from patients with IgG4 antibodies to both house dust mite and grass pollen induced cross-linking of Sepharose-bound grass pollen antigen to radiolabelled house dust mite allergen Der p I. This bispecific binding activity was not observed in sera with IgG4 antibodies to either grass pollen or house dust mite exclusively. Depletion of IgG4 antibodies resulted in disappearance of the bispecific activity. By size exclusion chromatography we excluded the possibility that bispecific activity was caused by aggregation of IgG4 antibodies. These results indicate that circulating (polyclonal) IgG4 antibodies have two different antigen-binding sites and therefore are functionally monovalent antibodies.     

A potassium ion channel is involved in cytokine production by activated human macrophages

Antibodies are powerful immunotherapeutic agents but their use for treating ocular disorders is limited by their poor penetration into the eye. We hypothesized that antibody fragments of relatively small size might penetrate the cornea more readily. Monovalent single chain variable region (scFv) antibody fragments and divalent miniantibodies were engineered from existing monoclonal antibodies, expressed in a bacterial expression system, and purified by metal ion affinity chromatography. Corneoscleral preparations from normal pig and cat eyes were mounted in a corneal perfusion chamber. Intact antibodies and antibody fragments were applied topically to the anterior corneal surface over 12-h periods, and samples were collected from the artificial anterior chamber. Similar experiments were performed with whole enucleated pig and human eyes. Penetration of antibodies and fragments was quantified by high-sensitivity flow cytometry on appropriate target cells. Both monovalent scFv and divalent miniantibody fragments (but not whole immunoglobulin molecules) passed through de-epithelialized and intact corneas after topical administration, and could be detected by antigen binding. Addition of 0.5% sodium caprate facilitated penetration through intact corneas. Topically-applied scFv was found to penetrate into the anterior chamber fluid of rabbit eyes in vivo. The engineered fragments were stable and resistant to ocular proteases. Monovalent and divalent antibody constructs of molecular weight 28 kD and 67 kD, respectively, can penetrate through intact corneas into the anterior chamber, with retention of appropriate antigen-binding activity. Such constructs may form novel therapeutic agents for topical ophthalmic use.     

The combination therapy with EpCAM/CD3 BsAb and MUC-1/CD3 BsAb elicited antitumor immunity by T-cell adoptive immunotherapy in lung cancer

Lung cancer remains a global challenge due to high morbidity and mortality rates and poor response to treatment, and there are still no effective strategies to solve it. The bispecific antibody (BsAb) is a novel antibody, which can target two different antigens and mediate specific killing effects by selectively redirecting effector cells to the target cells. In this study, we combined two BsAbs to achieve a dual-target therapy strategy of EpCAM⁺ and MUC-1⁺ with high affinity and specificity. The results showed that the combination of two BsAbs against EpCAM and MUC-1 could inhibit the growth of lung cancer more effectively in cell lines and primary tumors. The superior antitumor effect of two BsAbs could be attributable to enhanced CTL and increased production of type I IFNs. At the same time, the combination of EpCAM/CD3 BsAb and MUC-1/CD3 BsAb significantly regulated T population in the TDLNs. Therefore, we have found a potential immunotherapeutic strategy, which was the combination therapy with EpCAM/CD3 BsAb and MUC-1/CD3 BsAb for the treatment of non-small cell lung cancer.     

新型抗IL-1β和IL-17A双特异抗体的构建及特性鉴定

目的 双特异性抗体(bispecific antibody,BsAb)具有双重的生物学功能.本实验旨在设计并原核表达抗人IL-1β和抗人IL-17A的双特异性抗体(BsAbl/17),获得具有生物活性的BsAb1/17,为深入研究和利用双特异性抗体奠定基础.方法 利用重叠PCR方法构建VH1VL17-CL和VL1VH17-CH1基因片段,并且在所用引物的5'和3'端附加Nco Ⅰ和BamH Ⅰ的酶切位点.将重叠PCR产物进行胶回收后用Nco Ⅰ/BamH Ⅰ进行双酶切,酶切产物再次胶回收,将其连接到用Nco I/BamH I消化的pET-27b载体上.将重组质粒pET-27b-VH1VL17-CL(petA)和pET-27b-VL1VH17-CH1(petB)转化到E. coli Rosetta中.SDS-PAGE和Western blot进行鉴定,用real-time PCR检测其阻断IL-1 β刺激人T细胞表达细胞因子IL-18的活性,人IL-6定量酶联检测试剂盒检测其阻断IL-17A刺激HeLa细胞表达人IL-6的活性.结果 DNA测序结果证明成功构建了pET-27b-VH1VL17-CL(petA)和pET-27b-VL1VH17-CH1(petB)表达质粒.petA、petB诱导产物主要以包涵体形式存在,成熟蛋白纯化产物纯度超过90%以上,经SDS-PAGE分析表明表达产物的相对分子质量约为38×103,与理论值相符.Western blot和ELISA结果证实双特异抗体BsAb1/17对IL-1 β和IL-17A均具有很好的亲和力.通过RT-PCR检测证明其具有阻断IL-1 β刺激人T细胞大量表达细胞因子IL-18的活性,并且具有阻断IL-17A刺激HeLa细胞产生IL-6的活性.结论 成功构建了同时抗IL-1β和IL-17A的双特异抗体,并利用大肠杆菌表达系统高效表达较高纯度的具有生物活性的双特异抗体.

Abstract：

Objective To construct bispecific antibody BsAb1/17 against both IL-1β and IL-17A,express and purify the biologically active BsAbl/17 protein in prokaryotic system for further studies and applications. Methods VH1VL17-CL and VL1VH17-CH1 gene segments were constructed by overlap-PCR.Restriction enzyme sites Nco Ⅰ and BamH Ⅰ were designed at the 5'and 3' end primers respectively. The products of overlap-PCR were ligated to the Nco Ⅰ/BamH Ⅰ -prepared pET-27b vector. The recombinant plasmids pET-27b-VH1 VL17-CL(petA) and pET-27b-VL1 VH17-CH1 ( petB ) were transformed into E. coliRosetta separately. The expressing products were analyzed by SDS-PAGE and Western blot. Neutralization activity of the bispecific antibody for blocking the induction of IL-18 expression by IL-1β in human T cells was determined by real-time PCR. Neutralization activity of the bispecific antibody for blocking the induction of IL-6 expression by IL-17A in HeLa cells was determined by ELISA assay. Results The structure of the plasmids pET-27b-VH1 VL17-CL(petA) and pET-27b-VL1 VH17-CH1 (petB)was confirmed by DNA sequencing. After induction, the fusion proteins were expressed mainly as inclusion bodies. The purity of the both proteins exceeded 90%. SDS-PAGE analysis suggests the relative molecular mass of both products expressed by petA and petB were approximately 38× 103, which is in accordance with the theoretical value. The results of Western blot and ELISA test demonstrated that BsAb1/17 molecule had binding ability to both IL-1β and IL-17A. The BsAb1/17 could block IL-1β to stimulate human T cell to express IL-18 and block IL-17A to stimulate HeLa cell to express IL-6. Conclusion We successfully constructed a novel bispecific antibody BsAb1/17 against both IL-1 β and IL-17A, and expressed biologically active BsAb1/17 protein in prokaryotic system.     

Polyreactive antigen-binding B cells in the peripheral circulation are IgD+ and B7−

Polyreactive antibodies are naturally occurring antibodies, primarily of the IgM isotype, that are capable of reacting with a wide variety of different self and non-self antigens. Previously, we reported that a B cell capable of making polyreactive antibody has Ig receptors on its surface that can bind different antigens. The present investigation was initiated to characterize these polyreactive antigen-binding B cells further. A panel of fluorescein isothiocyanate-labeled antigens (insulin, IgG Fc fragment or β-galactosidase) served as probes to select polyreactive antigen-binding B cells by cell sorting. Our experiment revealed that these polyreactive antigen-binding B cells were mainly of the IgD isotype. They expressed high levels of CD40 and major histocompatibility complex class II molecules, but little or no B7-1, B7-2, or Fas. In contrast to the binding of antigens to monoreactive receptors (usually high affinity), the binding of antigens to polyreactive receptors (usually moderate or low affinity) did not up-regulate the expression of B7-1 or B7-2. Antigens that bound to polyreactive receptors, however, were internalized and degraded, although not as efficiently as antigens that bound to monoreactive receptors. Despite the ability of these B7⁻ cells to process antigens, they were not able to activate T cells in a mixed leukocyte reaction. It is concluded that polyreactive antigen-binding B cells have properties that are consistent with the ability to induce immunological tolerance.     

Inhibition of urokinase activity and prevention of urokinase receptor binding by monoclonal antibodies

Two murine monoclonal antibodies produced against human urokinase-type plasminogen activator were characterized with respect to their antigen-binding specificity and their effects on urokinase activity and urokinase receptor binding. One of the antibodies binds to the protease domain of urokinase (Kass = 2.1 X 10(7) M-1). Antibody binding inhibits catalysis of plasminogen activation. It does not, however, affect amidolytic activity of urokinase towards the chromogenic substrate D-Val-Leu-Arg-p-nitroanilide. The antibody thus appears to interfere with plasminogen binding without directly affecting catalytically active amino acid residues of the enzyme. The other antibody binds to the aminoterminal fragment of urokinase (Kass = 1.0 X 10(7) M-1) and prevents binding of the enzyme to high affinity receptors on human granulocytes. Binding of this antibody neither influences plasminogen activation nor the amidolytic activity of urokinase. Both antibodies are potentially useful for the further analysis and manipulation of urokinase function.     

Dimerisation strategies for shark IgNAR single domain antibody fragments

Immunoglobulin new antigen receptors (IgNARs) are unique single domain antibodies found in the serum of sharks. The individual variable (VNAR) domains bind antigen independently and are candidates for the smallest antibody-based immune recognition units (approximately 13 kDa). Here, we first isolated and sequenced the cDNA of a mature IgNAR antibody from the spotted wobbegong shark (Orectolobus maculatus) and confirmed the independent nature of the VNAR domains by dynamic light scattering. Second, we asked which of the reported antibody fragment dimerisation strategies could be applied to VNAR domains to produce small bivalent proteins with high functional affinity (avidity). In contrast to single chain Fv (scFv) fragments, separate IgNARs could not be linked into a tandem single chain format, with the resulting proteins exhibited only monovalent binding due solely to interaction of the N-terminal domain with antigen. Similarly, incorporation of C-terminal helix-turn-helix (dhlx) motifs, while resulting in efficiently dimerised protein, resulted in only a modest enhancement of affinity, probably due to an insufficiently long hinge region linking the antibody to the dhlx motif. Finally, generation of mutants containing half-cystine residues at the VNAR C-terminus produced dimeric recombinant proteins exhibiting high functional affinity for the target antigens, but at the cost of 50-fold decreased protein expression levels. This study demonstrates the potential for construction of bivalent or bispecific IgNAR-based binding reagents of relatively small size (approximately 26 kDa), equivalent to a monovalent antibody Fv fragment, for formulation into future diagnostic and therapeutic formats.     

Influence of relative binding affinity on efficacy in a panel of anti-CD3 scFv immunotoxins.

The in vitro cell killing potency of an immunotoxin reflects the aggregate of several independent biochemical properties. These include antigen binding affinity; internalization rate, intracellular processing and intrinsic toxin domain potency. This study examines the influence of antigen binding affinity on potency in various immunotoxin fusion proteins where target antigen binding is mediated by single chain antibody variable region fragments (scFv). Firstly, the relationship between affinity and potency was examined in a panel of four scFv immunotoxins generated from different anti-CD3 monoclonal antibodies fused to the 38 kDa fragment of Pseudomonas aeruginosa exotoxin A (PE38). Of these four scFv-PE38 immunotoxins, the one derived from the anti-CD3 monoclonal antibody UCHT1 has highest cell killing potency. Analysis of these four scFv-PE38 immunotoxins indicated a correlation between antigen binding affinity and immunotoxin potency in the cell killing assay with the exception of the scFvPE38 immunotoxin derived from the antibody BC3. However this scFv appeared to suffer a greater drop in affinity ( approximately 100x), relative to the parent Mab than did the other three scFvs used in this study (2-10x). Secondly, the scFv(UCHT1)-PE38 immunotoxin was then compared with a further panel of scFv(UCHT1)-derived immunotoxins including a divalent PE38 version and both monovalent and divalent Corynebacterium diphtheriae toxin (DT389) fusion proteins. When the scFv-UCHT1 domain was amino-terminally positioned relative to the toxin, as in the scFv(UCHT1)-PE38, an approximately 10-fold higher antigen-binding affinity was observed than with the C-terminal fusion, used in the DT389-scFv(UCHT1) molecule. Despite this lower antigen-binding activity, the DT389-scFv immunotoxin had a 60-fold higher potency in the T-cell-killing assay. Thirdly, a divalent form of the DT389-scFv construct, containing tandem scFv domains, had a 10-fold higher binding activity, which was exactly reflected in a 10-fold increase in potency. Therefore, when comparing immunotoxins in which scFvs from different antibodies are fused to the same toxin domain (DT or PE) a broad correlation appears to exist between binding affinity and immunotoxin potency. However, no correlation between affinity and potency appears to exist when different toxin domains are combined with the same scFv antibody domain.     

Cyclic tetramolecular complexes of monoclonal antibodies: a new type of cross-linking reagent

A simple and efficient procedure for the construction of bifunctional molecules is described and their use in a variety of applications documented. This procedure is based on our observation that mouse IgG1 monoclonal antibodies, when mixed with equimolar amounts of a high-affinity rat monoclonal antibody specific for mouse IgG1, yield uniform cyclic tetramolecular complexes each consisting of two mouse and two rat antibodies as shown by gel electrophoresis and electron microscopy. When solutions of two mouse antibodies (e.g. a and b) are mixed prior to the formation of complexes with the rat antibody, stable bispecific (a X b) complexes together with monospecific (a X a and b X b) complexes are obtained. Bispecific complexes prepared in this way were able to efficiently bind peroxidase to cell surface antigens, and to bind red blood cells to selected nucleated cell types present in heterogeneous populations. Tetrameric antibody complexes are more easily prepared than bispecific antibodies or bifunctional antibodies produced by transfection of myelomas with recombinant genes. They also have the advantage that the antigen-binding properties of the bivalent monoclonal antibodies are not compromised. Tetrameric antibody complexes thus represent a powerful new type of cross-linking reagent that may have a wide spectrum of applications in biology and medicine.