Generation of a stable anti-human CD44v6 scFv and analysis of its cancer-targeting ability in vitro

CD44v6 is a cancer-associated antigen that mainly expresses in a subset of adenocarcinomas. Therefore, in this study, anti-human CD44v6 single-chain variable fragment (scFv) has been selected and characterized because it is the first step of primary importance towards the construction of a novel cancer-targeted agent for cancer diagnosis and therapy. In our study, anti-human CD44v6 scFv was selected from a human phage-displayed scFv library based on its ability to bind in vitro to CD44v6 antigen. Subsequently, immunofluorescent staining and Western blot analyses were performed to measure the binding characteristics of this scFv. In addition, flow cytometric analysis was done to verify its cancer-targeting ability in vitro. And a flow cytometry-based assay was used to determine its equilibrium dissociation constant (K _D). Finally, one functional anti-CD44v6 scFv was selected and characterized. Nucleotide sequencing verified that it was an incomplete scFv gene but had a variable heavy chain (V_H) alone. However, anti-CD44v6 scFv demonstrated cell-binding and antigen-binding activities by immunofluorescent staining and Western blot analyses. Furthermore, flow cytometric analysis proved that this scFv specifically targeted CD44v6-expressing cancer cells other than CD44v6 non-expressing normal cells or tumor cells in vitro. The K _D of this scFv was calculated to be 7.85 ± 0.93 × 10⁻⁸ M. In summary, the selected human scFv against CD44v6 has specific binding activity and favorable binding affinity despite lacking a variable light chain (V_L). Moreover, it can effectively and specifically target CD44v6-expressing cancer cells. All these characteristics make anti-CD44v6 scFv a promising agent for cancer detection and anti-cancer therapy.     

Production of a recombinant anti-human CD4 single-chain variable-fragment antibody using phage display technology and its expression in Escherichia coli

Single-chain variable fragment (scFv) is a fusion protein of the variable regions of the heavy (VH) and light (VL) chains of immunoglobulin, connected with a short linker peptide of 10 to about 20 amino acids. In this study, the scFv of a monoclonal antibody against the third domain of human CD4 was cloned from OKT4 hybridoma cells using the phage display technique and produced in E. coli. The expression, production, and purification of anti-CD4 scFv were tested using SDS-PAGE and Western blot, and the specificity of anti-CD4 scFv was examined using ELISA. A 31 kDa recombinant anti-CD4 scFv was expressed and produced in bacteria, which was confirmed by SDS-PAGE and Western blot assays. Sequence analysis proved the ScFv structure of the construct. It was able to bind to CD4 in quality ELISA assay. The canonical structure of anti-CD4 scFv antibody was obtained using the SWISS_MODEL bioinformatics tool for comparing with the scFv general structure. To the best of our knowledge, this is the first report for generating scFv against human CD4 antigen. Engineered anti-CD4 scFv could be used in immunological studies, including fluorochrome conjugation, bispecific antibody production, bifunctional protein synthesis, and other genetic engineering manipulations. Since the binding site of our product is domain 3 (D3) of the CD4 molecule and different from the CD4 immunological main domain, including D1 and D2, further studies are needed to evaluate the anti-CD4 scFv potential for diagnostic and therapeutic applications.     

Functional and biochemical analysis of CD16 antigen on natural killer cells and granulocytes

CD16 Ag is associated with the low affinity FcR for IgG expressed on human NK cells and granulocytes. In this study, we demonstrate that NK cells specifically lyse murine anti-CD16 hybridoma cell lines, but do not lyse hybridomas against other cell surface differentiation Ag expressed on NK cells. Moreover, the CD18 structure is involved in the CD16-specific xenogeneic interaction between human effector cells and murine hybridoma target cells. Although interaction with anti-CD16 hybridomas or antibodies triggers the cytolytic mechanism of NK cells, this interaction does not induce cellular proliferation. In contrast to NK cells, CD16+ granulocytes do not lyse anti-CD16 hybridoma cell targets and do not mediate ADCC against antibody-coated human tumor cell targets. These findings indicate a fundamental difference in the antibody-dependent cellular cytotoxicity mechanisms of NK cells and granulocytes. Comparative biochemical analysis of CD16 on NK cells and granulocytes revealed significant differences in the size of the polypeptides obtained after removal of N-linked carbohydrate residues with endo-F and N-glycanase digestion.     

Di-, tri- and tetrameric single chain Fv antibody fragments against human CD19: effect of valency on cell binding.

Single chain variable fragments (scFv) of the murine monoclonal antibody HD37 specific to human B-cell antigen CD19 were constructed by joining the VH and VL domains with linkers of 18, 10, 1 and 0 residues. ScFv-18 formed monomers, dimers and small amounts of tetramers; scFv-10 formed dimers and small amounts of tetramers; scFv-1 formed exclusively tetramers; scFv-0 formed exclusively trimers. The affinities of the scFv-10 (diabody) and scFv-1 (tetrabody) were approximately 1.5- and 2.5-fold higher, respectively, than that of the scFv-0 (triabody). The tetrabody displayed a significantly prolonged association with cell-bound antigen (t1/2 cell surface retention at 37 degrees C of 26.6 min) compared to both the diabody (13.3 min) and triabody (6.7 min). This increase in avidity of the tetrabody combined with its larger size could prove to be particularly advantageous for imaging and the immunotherapy of B-cell malignancies.     

Activation of a Refolded, Berberine-specific, Single-chain Fv Fragment by Addition of Free Berberine

A single-chain variable fragment (scFv) specific for berberine was produced in Escherichia coli. The anti-berberine scFv gene was cloned from hybridoma 1D5-3B-7 producing the monoclonal antibody. The variable regions of the heavy (V_H) and light chain (V_L) genes were connected with a flexible linker using an assembly PCR. The V_H-linker-V_L gene was inserted into a plasmid, pET28a (+), then overexpressed in E. coli BL21 (DE3). The active of the scFv by refolding based on stepwise dialysis methods and an artificial chaperone was determined by direct and competitive enzyme-linked immunosorbent assay (ELISA). The results of direct ELISA showed that the anti-berberine scFv retained specific binding activity to berberine. In competitive ELISA, however, activity was increased depending on the concentration of berberine.     

A bivalent single-chain Fv fragment against CD47 induces apoptosis for leukemic cells

We constructed a single-chain antibody fragment (scFv) of murine monoclonal antibody, MABL, which specifically bound to human CD47 (hCD47) and induced apoptosis of the leukemic cells. The scFv of MABL antibody with a 15-residue linker (MABL scFv-15) formed both dimer (Mr 50 kDa) and monomer (Mr 25 kDa). Both MABL scFv-15 dimer and monomer had binding activity for hCD47. MABL scFv-15 dimer strongly induced apoptosis of hCD47-introduced mouse leukemic cells in vitro and exhibited anti-tumor effect in a myeloma transplanted mice model. However, MABL scFv-15 monomer scarcely exhibited these activities. These results strongly demonstrate that the ligation of CD47 antigen by two antigen-binding sites of MABL dimer is needed for inducing apoptosis. The parent MABL antibody caused hemagglutination due to the CD47 expressed on erythrocytes. Interestingly, MABL scFv-15 dimer did not cause hemagglutination. This apoptosis-inducing dimer appears to be a lead candidate for novel leukemic therapy.     

Characterization of recombinant scFv antibody reactive with an apical antigen of Eimeria acervulina

The chicken monoclonal antibody (mAb), 6D-12-G10, reacts with an apical complex protein at the anterior tip of E. acervulina sporozoites that inhibits parasite invasion in vitro. Because this mAb was produced at low amount from the original hybridoma cells, an scFv antibody was constructed by amplification of the corresponding V _H and V _L genes and expressed in E. coli. The scFv antibody was produced at a minimum of 7 mg l^–1 and exhibited virtually identical antigen reactivity as the original mAb.     

Expression and purification of two anti-CD19 single chain Fv fragments for targeting of liposomes to CD19-expressing cells

Antibody-targeted liposomal anticancer drugs combine the specificity of antibodies with large payloads of entrapped drugs. We previously showed that liposomal doxorubicin (DXR) targeted via anti-CD19 monoclonal antibodies (mAb) or their Fab' fragments against the B-cell antigen CD19 led to improved therapeutic effects in murine B-cell lymphoma models relative to non-targeted liposomal DXR. We now are examining the use of anti-CD19 single chain fragments of the antibody variable region (scFv) as a targeting moiety, to test the hypothesis that scFv have advantages over full-sized mAb or Fab' fragments. We expressed two different anti-CD19 scFv constructs, HD37-C and HD37-CCH in E. coli, and purified the scFvs using two different methods. The HD37-CCH construct was selected for coupling studies due to its relative stability and activity in comparison to HD37-C. When coupled to liposomes, the HD37-CCH scFv showed increased binding in vitro to CD19-positive Raji cells, compared to non-targeted liposomes. Cytotoxicity data showed that HD37-CCH scFv-targeted liposomes loaded with DXR were more cytotoxic than non-targeted liposomal DXR. Our results suggest that anti-CD19 scFv constructs should be explored further for their potential in treating B-lymphoid leukemias and lymphomas.     

Antigen-specific and antibody-mediated growth inhibition of suppressor T cell hybridomas. Roles of H-2 and the CD3-T cell receptor-alpha/beta complex

Eight different Ts cell hybridomas (including inducer (Ts1) and effector (Ts3) suppressor cells) specific for the 4-hydroxy-3-nitrophenyl acetyl (NP) hapten were tested for their ability to respond to Ag or anti-CD3 antibody in a growth-inhibition assay. Results suggest that the expression of the TCR-CD3 complex on Ts hybridomas is required for the Ag or anti-CD3-mediated growth inhibition. One of the CD3+, Ts hybridomas (CKB-Ts3-9.H3) was tested in detail; this CD4- effector suppressor cell hybridoma showed specific inhibition of growth in the presence of NP or NIP-coupled protein conjugates but not in the presence of other irrelevant hapten-protein conjugates. In addition, growth of this hybridoma was specifically inhibited by anti-CD3 and anti-TCR-alpha/beta antibodies but not by control hamster antibodies. In order to study the role of MHC molecules in Ag-mediated growth inhibition, Ts cell hybridomas were incubated with Ag (NP-keyhole limpet hemocyanin) in the presence of spleen cells from various H-2 congenic strains. The results suggest that the Ts hybridomas that express donor Ts-derived TCR beta-chain recognize Ag in an MHC-restricted manner, whereas the two Ts3 hybridomas that utilize BW5147-derived TCR-beta recognize Ag in H-2 unrestricted way. Co-incubation of anti-CD3 and anti-TCR-alpha/beta antibodies with specific Ag enhanced the Ag-mediated growth inhibition, whereas anti-LFA-1 antibody completely blocked the Ag-mediated effect. The combined data suggest that, like Th hybridomas, expression of CD3-associated-TCR complex is essential for the Ag responsiveness of Ts cell hybridomas.     

The V<Subscript>H</Subscript> gene repertoire of splenic B cells and somatic hypermutation in systemic lupus erythematosus

In systemic lupus erythematosus (SLE) it has been hypothesized that self-reactive B cells arise from virgin B cells that express low-affinity, nonpathogenic germline V genes that are cross-reactive for self and microbial antigens, which convert to high-affinity autoantibodies via somatic hypermutation. The aim of the present study was to determine whether the V_H family repertoire and pattern of somatic hypermutation in germinal centre (GC) B cells deviates from normal in SLE. Rearranged immunoglobulin V_H genes were cloned and sequenced from GCs of a SLE patient's spleen. From these data the GC V gene repertoire and the pattern of somatic mutation during the proliferation of B-cell clones were determined. The results highlighted a bias in V_H5 gene family usage, previously unreported in SLE, and under-representation of the V_H1 family, which is expressed in 20–30% of IgM⁺ B cells of healthy adults and confirmed a defect in negative selection. This is the first study of the splenic GC response in human SLE.     

Novel chimeric anti-ricin antibody C4C13 with neutralizing activity against ricin toxicity

So far, no specific therapeutic agent is available for the treatment of ricin intoxication. Here, V_H and V_L genes were cloned from a hybridoma cell line secreting anti-ricin mAb 4C13, which could neutralize the toxicity of ricin. A chimeric antibody, c4C13, containing 4C13 mAb variable region genes fused to human constant region genes (gamma 1, kappa), was constructed. C4C13 retained the binding activity and recognized the same, or a closely related, epitope as the original mouse antibody. Furthermore, c4C13 blocked ricin-induced cytotoxicity to SP2/0 cells. Compared with its parental mouse antibody, c4C13 will be safer when used in human body to reverse clinical ricin intoxication. Yugang Wang and Leiming Guo contributed equally to this work.     

A bispecific diabody directed against prostate-specific membrane antigen and CD3 induces T-cell mediated lysis of prostate cancer cells

Background Although cancer of the prostate is one of the most commonly diagnosed cancers in men, no curative treatment currently exists after its progression beyond resectable boundaries. Therefore, new agents for targeted treatment strategies are needed. Cross-linking of tumor antigens with T-cell associated antigens by bispecific monoclonal antibodies have been shown to increase antigen-specific cytotoxicity in T-cells. Since the prostate-specific membrane antigen (PSMA) represents an excellent tumor target, immunotherapy with bispecific diabodies could be a promising novel treatment option for prostate cancer. Methods A heterodimeric diabody specific for human PSMA and the T-cell antigen CD3 was constructed from the DNA of anti-CD3 and anti-PSMA single chain Fv fragments (scFv). It was expressed in E. coli using a vector containing a bicistronic operon for co-secretion of the hybrid scFv V_HCD3-V_LPSMA and V_HPSMA-V_LCD3. The resulting PSMAxCD3 diabody was purified from the periplasmic extract by immobilized metal affinity chromatography (IMAC). The binding properties were tested on PSMA-expressing prostate cancer cells and PSMA-negative cell lines as well as on Jurkat cells by flow cytometry. For in vitro functional analysis, a cell viability test (WST) was used. For in vivo evaluation the diabody was applied together with human peripheral blood lymphocytes (PBL) in a C4-2 xenograft-SCID mouse model. Results By Blue Native gel electrophoresis, it could be shown that the PSMAxCD3 diabody is mainly a tetramer. Specific binding both to CD3-expressing Jurkat cells and PSMA-expressing C4-2 cells was shown by flow cytometry. In vitro, the diabody proved to be a potent agent for retargeting PBL to lyze C4-2 prostate cancer cells. Treatment of SCID mice inoculated with C4-2 tumor xenografts with the diabody and PBL efficiently inhibited tumor growth. Conclusions The PSMAxCD3 diabody bears the potential for facilitating immunotherapy of prostate cancer and for the elimination of minimal residual disease. P. Bühler and P. Wolf equally contributed to the work.     

Bacterial expression and refolding of single-chain Fv fragments with C-terminal cysteines

Two antibody single-chain Fv (scFv) fragments carrying five C-terminal histidine residues were expressed inEscherichia coli as periplasmic inclusion bodies. Their variable heavy (V_H) and light (V_L) domains are derived from the mouse monoclonal antibody 215 (MAb215), specific for the largest subunit of RNA polymerase II ofDrosophila melanogaster and rat MAb Yol1/34, specific for pig brain α-tubulin. ScFv-215 contains an additional cysteine residue near to its C-terminus. After solubilization of inclusion bodies followed by immobilized metal affinity chromatography (IMAC) in 6M urea and a renaturation procedure, scFv monomers, noncovalent dimers, and aggregated antibody fragments were separated by size exclusion chromatography. In addition, a fraction of disulfide-bonded scFv-215 homodimers (scFv′)₂ was also isolated. The various antibody forms appear to be in equilibrium after renaturation since first peak composed mainly of aggregates could be resolved into a similar pattern of aggregates, dimers, and monomers after repeating the denaturation/renaturation procedure. All fractions of the recombinant scFv-215 demonstrated high antigen-binding activity and specificity as shown by enzyme-linked immunosorbent assay (ELISA) and Western blot analysis. Affinity measurements carried out by competitive immunoassays showed that covalently linked (scFv′)₂ have binding constants quite close to those of the parental MAbs and fourfold higher than scFv′ monomers. ScFv derivatives, specifically biotinylated through the free sulfhydryl group, recognize the corresponding antigen in ELISA and Western blot analysis, thus demonstrating the possibility of using chemically modified scFv antibodies for immunodetection.     

Cloning of a single-chain variable fragment (scFv) switching active plasminogen activator inhibitor-1 to substrate

Increased levels of plasminogen activator inhibitor-1 (PAI-1) are a well-known risk for cardiovascular diseases. A significant number of investigations are aimed at lowering plasma levels of PAI-1 to enhance endogenous fibrinolysis. We have recently generated monoclonal antibodies that neutralize PAI-1 activity by switching the inhibitory conformation to a substrate conformation. However, intact murine antibodies have quite some disadvantages for therapeutic use in man. In the current study, we describe the construction of a smaller antibody fragment derived from a monoclonal antibody (MA-8H9D4) with PAI-1 neutralizing properties. The cDNAs encoding the variable domains of the heavy and light chain were amplified, linked and cloned into a phagemid vector. Resulting clones were expressed as a single-chain variable fragment (scFv, V_H-(Gly₄Ser)₃-V_L) on the surface of a phage and selected for binding to PAI-1. Subsequently, a positive phage was used for the production of soluble scFv-8H9D4. Following purification, the characteristics of the scFv-8H9D4 were compared to those of the original MA-8H9D4. The scFv inhibited PAI-1 activity to a similar extent as MA-8H9D4 and by a similar mechanism, i.e., induction of a conformational switch. Thus, this smaller antibody fragment, exhibiting the same properties as the parent molecule may constitute a useful starting point for the design of PAI-1 neutralizing therapeutics. © 1997 Elsevier Science B.V. All rights reserved.     

Establishment of hybridomas producing cancer specific human antibodies from B cell line derived from PBL of a patient with adult T cell leukemia

Adult T cell leukemia (ATL) is a malignant disease characterized by tumorous proliferation of CD4⁺ T cells infected with retrovirus human T cell leukemia virus Type-I (HTLV-I) and concurs with an autoimmune disease and cancer due to attenuated immune response. In this study, we established ATL patient derived B-cell line TM-1 producing cancer-specific IgM antibodies, and further characterized its antigen specificity by establishing hybridomas fused with human-mouse origin hetero-myeloma cell line RF-S1. We established three hybridoma cell lines termed 2E12, 3E9, and 3E10, which continuously secreted human IgM antibodies. Immunohistochemical staining of formalin-fixed tissue section using antibodies secreted from these hybridomas showed that these antibodies specifically recognized tumor sites of human colon adenocarcinomas. Antibody produced from hybridoma 3E9 bound to some of leukemic cell lines, but not to normal human PBL, which was evidenced by the flow cytometric analysis, indicating that antibody produced from 3E9 recognizes cell surface antigen specifically expressed in the leukemic cells. This revised version was published online in July 2006 with corrections to the Cover Date.     

Expression and purification of two anti-CD19 single chain Fv fragments for targeting of liposomes to CD19-expressing cells

Antibody-targeted liposomal anticancer drugs combine the specificity of antibodies with large payloads of entrapped drugs. We previously showed that liposomal doxorubicin (DXR) targeted via anti-CD19 monoclonal antibodies (mAb) or their Fab' fragments against the B-cell antigen CD19 led to improved therapeutic effects in murine B-cell lymphoma models relative to non-targeted liposomal DXR. We now are examining the use of anti-CD19 single chain fragments of the antibody variable region (scFv) as a targeting moiety, to test the hypothesis that scFv have advantages over full-sized mAb or Fab' fragments. We expressed two different anti-CD19 scFv constructs, HD37-C and HD37-CCH in E. coli, and purified the scFvs using two different methods. The HD37-CCH construct was selected for coupling studies due to its relative stability and activity in comparison to HD37-C. When coupled to liposomes, the HD37-CCH scFv showed increased binding in vitro to CD19-positive Raji cells, compared to non-targeted liposomes. Cytotoxicity data showed that HD37-CCH scFv-targeted liposomes loaded with DXR were more cytotoxic than non-targeted liposomal DXR. Our results suggest that anti-CD19 scFv constructs should be explored further for their potential in treating B-lymphoid leukemias and lymphomas.     

Partial deletions of the cytoplasmic domain of CD2 result in a partial defect in signal transduction

CD2 (T11, the T cell erythrocyte receptor or the SRBC receptor), a nonpolymorphic 47- to 55-kDa glycoprotein, appears to play a role in T lymphocyte adhesion, signal transduction, and differentiation. Pairs of anti-CD2 mAb induce T cell proliferation, suggesting that CD2 may be an Ag-independent pathway of T cell activation. We have expressed the human CD2 and a number of cytoplasmic domain deletion mutants of CD2 in an Ag-reactive murine hybridoma. We have previously shown that a cytoplasmic domain deletion mutant, CD2 delta B, in which the carboxyl-terminal 100 amino acids have been deleted, is no longer capable of signaling through CD2. Here we have expressed a second cytoplasmic domain deletion mutant, CD2 delta S, in which the terminal 41 amino acids have been removed, including the region with greatest conservation between the mouse, rat, and human species. CD2 delta S+ hybridomas were able to respond to Ag and to LFA-3 plus an anti-CD2 mAb. Although the CD2 delta S+ hybridomas responded comparably to the wild-type CD2+ hybridomas to certain pairs of anti-CD2 mAb (e.g., MT110 + 9-1 mAb), these CD2 delta S+ hybridomas were markedly deficient in their ability to respond to other pairs of stimulatory anti-CD2 mAb (e.g., 9.6 + 9-1 mAb). These data suggest that the cytoplasmic domain may have several functional regions, as partial deletions of the cytoplasmic domain appear to result in partial defects in signal transduction.     

Human Vκ immunoglobulin gene number: Implications for the origin of antibody diversity

To assess the relative contributions of germline versus somatically mutated genes in the human immune system, we have examined the size of the kappa light-chain variable region (V_κ) gene pool. Two cloned kappa subgroup 1 (V_κ1) gene probes detected the same family of 15 to 20 crosshybridizing restriction fragments in human DNA, whereas flanking region probes detected fewer hybridizing fragments. Most of the hybridizing bands represent single-copy genes, as judged by a “gene titration” experiment. Furthermore, the number of hybridization bands is a good estimate of the haploid gene number, since we observed little polymorphism of restriction sites in the V_κ locus of eight unrelated people. A cloned V_κ3 probe hybridized to essentially the same 15–20 genes in human DNA as the V_κ1 probes. These results strongly suggest that a discrete family of 15–20 genes constitutes a large proportion of the V genes from three of the four V_κ subgroups. The small number of V_κ genes in the human genome supports the idea that somatic mutation plays a major role in the origin of antibody diversity in man.     

Growth control of hybridoma cells with an artificially induced EpoR-gp130 heterodimer

IL-6 has been known to modulate the growth of many hybridoma cells and also promote resultant antibody productivity. However, IL-6 is so expensive that the use of IL-6-dependent hybridomas for industrial antibody production is not practical. In this study, we aimed at designing antibody/gp130 and antibody/EpoR chimeras which could tightly control cell growth in response to more affordable cognate antigen. Retroviral vectors encoding V_H or V_L region of anti-hen egg lysozyme (HEL) antibody HyHEL-10 tethered to a pair of extracellular D2/transmembrane domains of erythropoietin receptor (EpoR) and cytoplasmic domains of either EpoR or gp130, were constructed, and a homodimeric or a heterodimeric pair of chimeric receptor combinations (V_H-gp130 and V_L-gp130 or V_H-gp130 and V_L-EpoR) were expressed in an IL-6-dependent hybridoma 7TD1. The chimeric receptor-derived growth signal was observed in both combinations, while some residual growth signal was observed in the absence of HEL. To reduce interchain interaction between the two receptor chains, we introduced mutations to the transmembrane domain of both chimera combinations. Consequently, the heterodimeric combination of V_H-gp130 and V_L-EpoR showed clear HEL-dependent cell growth, while the homodimeric combination of V_H-gp130 and V_L-gp130 showed reduced cell growth in the absence of HEL. This is the first report that an EpoR-gp130 cytoplasmic domain heterodimer could transduce a growth signal in hybridoma cells, indicating tight and economical growth control of hybridoma cells via our chimeric receptors.