Expression in non-lymphoid cells of mouse recombinant immunoglobulin directed against the tumour marker human placental alkaline phosphatase

Fab chains as an efficient heterodimerization scaffold for the production of recombinant bispecific and trispecific antibody derivatives

Due to their multispecificity and versatility, bispecific Abs (BsAbs) are promising therapeutic tools in tomorrow's medicine. Especially intermediate-sized BsAbs that combine body retention with tissue penetration are valuable for therapy but necessitate expression systems that favor heterodimerization of the binding sites for large-scale application. To identify heterodimerization domains to which single-chain variable fragments (scFv) can be fused, we compared the efficiency of heterodimerization of CL and CH1 constant domains with complete L and Fd chains in mammalian cells. We found that the isolated CL:CH1 domain interaction was inefficient for secretion of heterodimers. However, when the complete L and Fd chains were used, secretion of L:Fd heterodimers was highly successful. Because these Fab chains contribute a binding moiety, C-terminal fusion of a scFv molecule to the L and/or Fd chains generated BsAbs or trispecific Abs (TsAbs) of intermediate size (75-100 kDa). These disulfide-stabilized bispecific Fab-scFv ("bibody") and trispecific Fab-(scFv)(2) ("tribody") heterodimers represent up to 90% of all secreted Ab fragments in the mammalian expression system and possess fully functional binding moieties. Furthermore, both molecules recruit and activate T cells in a tumor cell-dependent way, whereby the trispecific derivative can exert this activity to two different tumor cells. Thus we propose the use of the disulfide-stabilized L:Fd heterodimer as an efficient platform for production of intermediate-sized BsAbs and TsAbs in mammalian expression systems.

Production in Escherichia coli of a functional murine and murine::human chimeric F(ab')2 fragment and mature antibody directed against human placental alkaline phosphatase

We report the production in Escherichia coli of a murine antibody IgG2b, a murine::human chimeric antibody IgG3 and the corresponding F(ab')2 fragments, all directed against human placental alkaline phosphatase, a tumor marker. The cDNA of the heavy chain of the mature antibodies and their fragments were linked up to the bacterial alkaline phosphatase signal sequence and were placed under control of the inducible tac promoter. Coexpression with the murine kappa light chain resulted in production of functional dimeric, trimeric and tetrameric, mature antibodies and F(ab')2 fragments in the periplasm of E. coli in a yield of 200-300 micrograms l-1. High amounts of light and heavy chains were present also in the insoluble fraction.

Molecular characterization of J558 genes encoding tight-skin mouse autoantibodies: identical heavy-chain variable genes code for antibodies with different specificities

Tight-skin mouse, a mutant strain with a single gene defect, develops cutaneous hyperplasia and specific autoantibodies, like humans affected by scleroderma. The autoantibodies produced in the tight-skin mouse are encoded primarily by heavy-chain variable (VH) genes from the J558 family. To understand the genetic basis of production of autoantibodies, we have analyzed the structure of J558 genes encoding these autoantibodies. The results showed that J558 genes encoding these antibodies were not derived from a selected germ-line gene(s) or a single subfamily but were derived from genes belonging to diverse J558 subfamilies. However, two prototype VH genes representing two new subfamilies were found to be repeatedly expressed in their germ-line form in eight independent clones. Autoantibodies with distinct specificities appear to be generated by pairing of similar/identical VH genes with different V kappa genes derived from the same or different families. Fourteen of 18 autoantibodies shared a conserved heptapeptide sequence motif, YNEKFKG, in the second complementarity-determining region of heavy chains. Usage of germ-line genes from diverse J558 subfamilies bearing a common motif to encode autoantibodies suggests a regulatory role for this motif. Thus, selection and expansion of the autoreactive B-cell repertoire in the tight-skin mouse appear to be VH-gene mediated. The frequency of N nucleotide addition at diversity-joining (D-JH) junctions was lower, whereas the frequency of usage of the DFL16 segment was higher. Finally, in contrast to normal and other autoimmune mouse strains, the frequencies of D-D fusions and D inversions were higher in tight-skin mouse total immunoglobulin as well as autoantibody repertoires.

Molecular and structural analysis of nuclear localizing anti-DNA lupus antibodies

To determine the structure of three nuclear localizing lupus anti-DNA immunoglobulins (Igs) and to search for clues to mechanisms of cellular and/or nuclear access, their H- and L-chain variable region sequences were determined and subjected to three-dimensional modeling. Although the results indicate heterogeneity in their primary structures, the H chains are encoded by 3 members of the J558 VH gene family with a common tertiary conformation that is not shared by a J558-encoded nonnuclear localizing anti-DNA control Ig. Furthermore, at least two of the Igs share a conformational motif in the H-chain CDR3, and all three Igs contain multiple positively charged amino acids in their CDRs, resembling nuclear localization signals that direct protein nuclear import. Notably, each VH and VK gene is also found recurrently among previously described autoantibodies. Molecular analysis further indicates that both germline-encoded and significantly mutated V genes can generate nuclear localizing anti-DNA Ig.

A bifunctional murine::human chimeric antibody with one antigen-binding arm replaced by bacterial beta-lactamase

We here report the genetic engineering of a murine::human chimeric antibody--directed against the tumor marker human placental alkaline phosphatase--in which one antigen-binding arm (Fab) has been replaced by Escherichia coli beta-lactamase (Bla). A mutated Bla gene in which the termination codon had been replaced by GAG, was fused in-phase to the cDNA sequence encoding the hinge region, CH2 and CH3 of the human IgG3 heavy chain. The resulting BlaHG3f fusion gene was placed under control of the Simian Virus 40 late promoter, and transiently expressed in COS-1 cells together with the genes encoding the murine light and murine::human chimeric heavy chains. Approximately 200 ng/ml of correctly assembled bifunctional antibody-Bla immunoconjugates were detected in the culture supernatant. This observation indicates that Bla (with its own leader peptide) can efficiently direct secretion into the culture medium of adventitious sequences fused at its C-terminus. Furthermore, the assembly in the Fc region was not affected by steric hindrance due to a Bla moiety and an Fab arm in close proximity. The antibody-Bla immunoconjugate could be of therapeutic value for the activation of cephalosporin-based anti-cancer prodrugs at the tumor site. Moreover, the expression strategy adopted here is particularly suitable for a quick and convenient analysis of newly designed gene products in which the Bla moiety has been replaced by other enzymes or by antigen-binding fragments in order to engineer bispecific antibodies.

Production of functionally active murine and murine::human chimeric F(ab')2 fragments in COS-1 cells

We report here the synthesis, in nonlymphoid cells, of two functionally active recombinant F(ab')2 fragments directed against the tumor marker, human placental alkaline phosphatase (hPLAP). The truncated heavy chain (HC) sequences, E6Hf2 and E6Hy3f2, of the murine F(ab')2 fragment, E6F2, and of the murine::human chimeric F(ab')2 fragment, E6(Hy3,kappa)F2, respectively, were engineered by introducing an in-phase stop codon within the second constant domain of the corresponding parental HC sequence. The antibody-encoding genes were placed under control of the simian virus 40 late promoter and each HC sequence, together with the light chain (LC) sequence, was transiently expressed in COS-1 cells. The truncated HCs were correctly synthesized, processed and assembled with the murine LC and subsequently secreted into the culture medium as functionally active entities with stable hinge region interactions. These results indicate that, under the conditions used, the hinge region was sufficient for the formation of divalent molecules. However, Western blotting revealed the presence of hPLAP-binding half-molecules of E6F2, which was not the case for E6(Hy3,kappa)F2. Since E6F2 and E6(Hy3,kappa)F2 mainly differ by the length of their hinge region (22 and 62 aa residues, respectively) and the number of inter-HC disulfide bridges (four and eleven, respectively), it may be concluded that F(ab')2 fragments with an extended hinge region and several inter-HC disulfide bridges are formed more efficiently.

Construction and characterization of a functional chimeric murine-human antibody directed against human fibrin fragment-D dimer

Fibrin-directed monoclonal antibodies may be clinically useful for in vitro thrombus imaging and for the targeting of fibrinolytic agents to blood clots. One such murine monoclonal antibody, (mAb-15C5), raised against the fragment-D dimer epitope of cross-linked human fibrin, was previously characterized [Holvoet, P., Stassen, J. M., Hashimoto, Y., Spriggs, D., Devos, P. & Collen, D. (1989) Thromb. Haemostasis 61, 307-313] has recently been cloned and expressed [Vandamme, A.-M., Bulens, F., Bernar, H., Nelles, L., Lijnen, H. R. & Collen, D. (1990) Eur. J. Biochem. 192, 767-775]. In order to reduce the immunogenicity of the murine mAb-15C5 in man, we have now constructed a murine--human chimera of mAb-15C5, by substituting the cDNA sequences encoding the constant regions of the murine kappa light chain and gamma 1 heavy chain by the corresponding human genomic sequences. Both chimeric murine--human Ig chains were cloned into two separately selectable expression vectors, which were contransfected into Chinese hamster ovary (CHO) cells. Murine--human chimeric mAb-15C5 (mAb-15C5Hu) was purified from the conditioned medium of selected cell lines by chromatography on Zn-chelating Sepharose, protein-A-Sepharose and on insolubilized antigen (fragment-D dimer), with a final yield of 29 micrograms/l and a recovery of 33%. SDS/PAGE without reduction revealed a homogeneous band with a mobility similar to that of natural mAb-15C5, whereas after reduction, both the heavy and the light chains had slightly slower mobilities than their natural counterparts. Expression in the presence of tunicamycin suggested that the differences in gamma 1-chain mobility were due to different N-glycosylation patterns. Immunoblotting of proteins from SDS gels showed immunological reactivity of recombinant mAb-15C5Hu with goat anti-(human IgG) IgG and of recombinant and natural murine mAb-15C5 with goat anti-(mouse IgG) IgG. Competitive binding revealed a comparable affinity of recombinant murine mAb-15C5, recombinant mAb-15C5Hu and natural mAb-15C5, for fragment-D dimer, indicating that recombinant mAb-15C5Hu was obtained in a functionally intact form. Thus, mAb-15C5Hu may constitute a useful alternative to mAb-15C5 for in vivo use in man.

Construction and characterization of a recombinant murine monoclonal antibody directed against human fibrin fragment-D dimer

cDNA libraries in lambda phage were generated from the murine hybridoma secreting mAb-15C5, a monoclonal antibody directed against fragment-D dimer of crosslinked human fibrin [Holvoet et al. (1989) Thromb. Haemostasis 61, 307-313], and clones encoding fragments of the heavy (gamma 1) and the light (kappa) chain were isolated. The kappa-chain cDNA was reconstructed from two overlapping clones encoding 20 amino acids of signal sequence and the 214 amino acids of the mature protein chain. The gamma 1-chain cDNA was reconstructed from the mAb-15C5 kappa-chain signal sequence, the mAb-15C5 gamma 1 variable-domain coding sequence and murine gamma 1-gene and gamma 1-chain cDNA fragments encoding the constant domains. These cDNAs were expressed in Chinese hamster ovary cells, selected cell lines were scaled up in roller bottle culture, and recombinant mAb-15C5 was purified from the conditioned medium by chromatography on Zn-chelate - Sepharose, protein-A - Sepharose and insolubilized fragment-D dimer, with a yield of 50 micrograms/l and a recovery of 20%. SDS-gel electrophoresis without reduction revealed a homogeneous band, and after reduction a light-chain band with identical and a heavy-chained band with a somewhat slower mobility than that of the natural mAb-15C5. Competitive binding revealed a comparable affinity of natural and recombinant mAb-15C5 for fibrin fragment-D dimer. Thus recombinant mAb-15C5, obtained by co-expression of the reconstructed cDNAs of the kappa and gamma 1 chain in Chinese hamster ovary cells, has very similar properties to natural mAb-15C5. These recombinant mAb-15C5 cDNAs may be useful for the construction of a humanized monoclonal antibody for thrombus imaging, and for targeting of thrombolytic agents to fibrin.

Expression and characterization of human CD4:immunoglobulin fusion proteins

Different chimeric antibody-like molecules consisting of the four human CD4 extracellular domains (amino acids 1-369) fused to different parts of human IgG1 and IgM heavy-chain constant regions have been created and expressed in mammalian cells. For both IgG1 and IgM fusion proteins, the best expression in COS cells was observed for molecules lacking the CH1 domain of the heavy-chain constant region. The chimeric molecules are potent inhibitors of human immunodeficiency virus (HIV) infection and HIV-mediated cytotoxicity. A CD4:IgG1 hinge fusion protein, which was analyzed in more detail, binds efficiently to HIV gp160 and human Fc receptors and shows complement-assisted inhibition of viral propagation in culture. Half-life studies after intravenous application of the latter human fusion protein into mice and monkeys showed significant prolongation of serum survival compared to soluble CD4. An IgG2b murine homolog of the human CD4:IgG1 hinge fusion protein was prepared and evaluated in mice, where it was found to be nontoxic and to have no detectable effect on the humoral response to soluble antigen.