SummaryA recombinant bispecific single-chain fragment variable antibody (bsscFv), directed against the B-cell antigen CD19 and the low affinity Fc-receptor FccRIII (CD16), was designed for use in the treatment of patients with leukaemias and lymphomas. The Fc-portions of whole antibodies were deliberately eliminated in this construct to avoid undesired effector functions. A stabilised bsscFv, ds[CD19 · CD16], was generated, in which disulphide bonds bridging the respective variable light (VL) and variable heavy (VH) chains were introduced into both component single-chain (sc)Fvs. After production in 293T cells and chromatographic purification, ds[CD19 · CD16] specifically and simultaneously bound both antigens. The serum stability of ds[CD19 · CD16] was increased more than threefold when compared with the unstabilised counterpart, while other biological properties were not affected by these mutations. In antibody-dependent cellular cytotoxicity experiments, ds[CD19 · CD16] mediated specific lysis of both CD19-positive malignant human B-lymphoid cell lines and primary tumour cells from patients with B-cell chronic lymphocytic leukaemia or B-cell acute lymphoblastic leukaemia. Natural killer cells, mononuclear cells (MNCs) from healthy donors and, in some instances, MNCs isolated from patients after allogeneic stem cell transplantation, were used as effectors. Thus, ds[CD19 · CD16] holds promise for the treatment of CD19 + B-lineage malignancies.
Relapse is a major problem after transplantation in children with acute B-lineage leukemias, and new therapies are needed to increase graft-versus-leukemia (GvL) effects without inducing graftversus-host disease (GvHD). Here, we studied the ability of effector cells recovered from patients after transplantation with positive-selected stem cells from alternative donors to induce antibodydependent cellular cytotoxicity (ADCC).For this purpose, a chimeric CD19 antibody, CD19-4G7chim, was generated. This antibody efficiently mediated ADCC against primary acute lymphoblastic leukemia (ALL) blasts by using purified natural killer (
SummaryA novel single-chain immunotoxin was constructed by combining a CD33-specific single chain Fv (scFv) antibody fragment with an engineered variant of Pseudomonas exotoxin A (ETA). The variant toxin carries the KDEL peptide at its C-terminus, a cellular peptide mediating improved retrograde transport to the endoplasmic reticulum. The purified recombinant fusion protein induced potent apoptosis of the human myeloid cell lines U937, HL-60 and THP-1. Up to 98% of U937 cells were eliminated after treatment for 72 h with a single dose of 500 ng/ml (c. 7 nmol/l). Killing was antigenspecific and occurred by apoptosis. A control protein, consisting of a CD19-specific scFv antibody fragment fused to the ETA-KDEL toxin, failed to induce death of the CD19-negative cell lines U937, HL-60 and THP-1. The CD33-ETA toxin also mediated apoptosis of fresh patient-derived acute myeloid leukaemia cells from bone marrow and peripheral blood. The pronounced antigen-restricted cytotoxicity of the novel fusion protein makes it a candidate for further evaluation of its therapeutic potential.
Summary
Bispecific antibodies offer the possibility of improving effector‐cell recruitment for antibody therapy. For this purpose, a recombinant bispecific single‐chain Fv antibody (bsscFv), directed against FcγRIII (CD16) and human leucocyte antigen (HLA) class II, was constructed and tested in functional assays. RNA from the hybridomas 3G8 and F3.3, reacting with CD16 and HLA class II, respectively, was used to generate phage display libraries. From these libraries, reactive phages were isolated and the bsscFv was constructed by connecting both single‐chain Fv components through a 20 amino acid flexible linker. After expression in SF21 insect cells and chromatographic purification, the bsscFv bound specifically and simultaneously to both antigens. The affinities of the anti‐CD16 and the anti‐HLA class II scFv components of the bsscFv were 8·6 × 10−8 mol/l and 13·7 × 10−8 mol/l, respectively, which was approximately sevenfold lower than the F(ab) fragments of the parental antibodies. In antibody‐dependent cellular cytotoxicity experiments with human mononuclear cells as effectors, the bsscFv‐mediated specific lysis of both HLA class II‐positive, malignant human B‐lymphoid cell lines and primary cells from patients with chronic B‐cell lymphocytic leukaemia. Optimal lysis was obtained at bsscFv concentrations of approximately 400 ng/ml, similar to the concentration required for maximum lysis by the corresponding chemically linked bispecific antibody. Thus, this recombinant bsscFv‐antibody is an efficient molecule for effector‐cell mediated lysis of malignant human B‐lymphoid cells.
Bispecific Abs offer new perspectives for cancer immunotherapy. In this study, we describe a recombinant bispecific single-chain fragment variable (bsscFv) directed against FcαRI (CD89) on polymorphonuclear neutrophils (PMNs) or monocytes/macrophages and HLA class II on lymphoma target cells. FcαRI and HLA class II-directed single-chain fragment variable (scFv) fragments were isolated from phage display libraries, established from the hybridomas A77 and F3.3, respectively. The two scFv molecules were connected with a 20 aa flexible linker sequence. After expression in SF21 insect cells and chromatographic purification, the bispecific molecule showed specific binding to both Ags at KD values of 148 ± 42 nM and 113 ± 25 nM for the anti-FcαRI and anti-HLA class II scFv components in the bsscFv, respectively. In Ab-dependent cytotoxicity assays with PMNs as effectors and a series of lymphoma-derived cell lines (ARH-77, RAJI, REH, NALM-6, RS4;11), the bsscFv was significantly more cytotoxic than the parental murine IgG1 and its chimeric IgG1 derivative. When targeting primary tumor cell isolates from six patients with B cell malignancies, the killing capacity of the (FcαRI × HLA class II) bsscFv compared favorably to conventional HLA class II mAb. Importantly, the cell lines NALM-6 and RS411, as well as two primary tumor cell isolates, were exclusively lysed by the bsscFv. To our knowledge, this is the first report of an FcαRI-directed bsscFv effectively recruiting PMNs for redirected cytotoxicity against human B cell malignancies. Our data show that an (FcαRI × HLA class II) bsscFv is an interesting candidate for further engineering of small, modular immunopharmaceuticals.
Summary:Relapse is a major problem after allogeneic transplantation in children with acute B-lineage lymphoblastic leukemias (ALL) and lymphomas and additional therapeutic strategies are needed to increase graft versus leukemia effects without inducing graft versus host disease (GvHD). Several studies have shown the efficacy of a humanized CD20 antibody (rituximab) for treatment of CD20 þ malignancies together with conventional chemotherapy but less is known about its post transplant usefulness. We studied the ability of rituximab to mediate antibody-dependent cellular cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) with effector cells and complement from patients who were transplanted with T-cell-depleted grafts from unrelated or mismatched related donors. Highest lytic activity (ADCC) was observed against leukemia-derived MHH4 cells and Burkitt's lymphoma-derived Raji cells in the first months after transplantation, corresponding to the high percentage of regenerating CD56 þ CD16 þ cells. Moreover, primary cryopreserved ALL-blasts from a pediatric patient were also efficiently lysed. Increased lysis was obtained after stimulation with interleukin-2. Combination of ADCC and CDC had additive effects. These findings encourage clinical trials on the use of rituximab for improving minimal residual disease control and relapse prevention after allogeneic high-risk transplantation in the small group of pediatric patients with CD20 þ leukemias/ lymphomas. Bone Marrow Transplantation (2005) 36, 91-97.
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