Selective killing of B-cell hybridomas targeting proteinase 3, Wegener's autoantigen.

Wegener's granulomatosis (WG) is a rare disease characterized by granulomatous lesions, small vessel vasculitis and the presence of anti-neutrophil cytoplasmic autoantibodies (C-ANCAs) in the sera of affected patients. Their main target antigen is proteinase 3 (PR3), a neutrophil and monocyte-derived neutral serine protease. Since the standard treatment of this severe autoimmune disease, with cyclophosphamide and corticosteroids, is associated with potential side-effects, the development of a more specific immunotherapeutic agent is warranted. The key role of ANCA in the pathogenesis of vasculitis and the effectiveness of anti-CD20 antibodies in patients with refractory WG points towards the importance of B cells in WG. We thus evaluated a new approach to selectively eliminate PR3-specific autoreactive B cells by targeting the B-cell receptor. For this purpose we used a bifunctional recombinant fusion protein consisting of the antigen PR3 and a toxin. The cytotoxic component of this novel fusion protein was the ribonuclease angiogenin, a human toxin with low immunogenicity. The toxin was stabilized by exchanging the catalytically relevant histidine in position 44 with glutamine to eliminate the autoproteolytic activity. PR3H44Q was fused either to the N terminus or to the C terminus of angiogenin. The recombinant proteins were expressed in 293T cells. Binding assays demonstrated the appropriate size and recognition by anti-PR3 antibodies. Using TUNEL technology, we demonstrated that these autoantigen toxins kill proteinase 3-specific B-cell hybridomas selectively by inducing apoptosis. The data indicate that autoantigen-toxins are promising tools in the treatment or co-treatment of autoimmune diseases in which the antigen is known.

Secretion of functional anti-CD30-angiogenin immunotoxins into the supernatant of transfected 293T-cells.

Immunotoxins consist of a target-cell-specific binding moiety, chemically or recombinantly linked to a cytotoxic component. A number of different immunotoxins (IT) have increasingly been evaluated for immunotherapy. Since these foreign proteins are highly immunogenic in human, we have developed recombinant IT using the human ribonuclease angiogenin. Due to their potential toxic effects on eucaryotic cells, these IT are usually expressed in bacteria. Depending on the structure, size, and sequence of the desired IT, bacterial expression can be limited and the yield after purification be unsatisfactory. Therefore, the expression of IT in eucaryotic cells could provide a promising alternative. For this purpose we genetically fused the anti-CD30 single-chain variable fragment (scFv) Ki4 to the N- and C-termini of recombinant angiogenin. Both IT possess leader sequences, which mediate their secretion into the cell culture supernatant. Using a bicistronic mRNA the IT were simultaneously expressed together with enhanced green fluorescent protein (EGFP). This allows direct monitoring of transfected cells. An additional plasmid encoded Zeocin resistance enhances the cultivation of transfected cells under selection pressure. Three days after transfection of 293T-cells, unpurified IT were analyzed by flow cytometry and competitive cell proliferation assays. This is the first report on the use of eucaryotic cells for the secretion of functionally active IT with a human effector domain.