Validated detection of anti-GD2 antibody ch14.18/CHO in serum of neuroblastoma patients using anti-idiotype antibody ganglidiomab.

Human/mouse chimeric monoclonal antibody (mAb) ch14.18 is directed against disialoganglioside GD2 and has demonstrated activity and efficacy in high-risk neuroblastoma (NB). For the purpose of industrial production, ch14.18 was manufactured in Chinese hamster ovarian cells (ch14.18/CHO) in order to facilitate clinical trials in Europe. To determine immunopharmacological effects of ch14.18 in preclinical models and clinical trials, a validated method of quantitative detection of ch14.18/CHO in serum is an important tool. We recently described the generation and characterization of ganglidiomab, a monoclonal anti-idiotype Ab (AIT) of ch14.18 (Lode et al., 2013), which was used to establish quantitative and validated enzyme-linked immunosorbent assay (ELISA) methods using ganglidiomab as a capture mAb. With these ELISA methods, we first demonstrated binding of ch14.18/CHO to ganglidiomab to a similar extent as to the nominal antigen GD2 and in contrast to GD1b and GM2 precursor and metabolite gangliosides, used as negative controls. In order to determine both low (0.5-3.1 µg/ml) and high levels of ch14.18/CHO (1.0-25 µg/ml) in the serum of NB patients treated with ch14.18/CHO, we established two ELISA methods with high and low sensitivity using 1/1001, and 1/5126 sample dilutions, respectively. For validation, we used a set of tailored quality controls (QC) containing distinct concentrations of ch14.18/CHO (1.0, 2.0, 7.0, and 20.0 µg/ml). We determined the limit of detection (LOD) for both ELISA methods to be 0.50 µg/ml for the high sensitivity and 1.02 µg/ml for low sensitivity ELISA. The within-assay precision was 12% for high and 4% for low sensitivity ELISA, and the coefficients of variation (CV) were under 20% for all assays (3% for QC-1.0, 5% for QC-2.0, 7% for QC-7, and 3% for QC-20). With this method, we showed that neither eight freeze-thaw cycles nor storage at room temperature for up to 168 h affected ch14.18/CHO stability in serum. Finally, we analyzed ch14.18 Ab serum levels in selected NB patients receiving ch14.18/CHO as a continuous or bolus infusion with a peak concentration at the last day of Ab application (17.14 ± 7.20mg/ml with continuous and 19.78 ± 2.26 mg/ml with bolus infusion). In summary, we describe validated ELISA methods using ganglidiomab as a capture mAb suitable for the pharmacological evaluation of ch14.18/CHO in NB patients.

Vaccination with anti-idiotype antibody ganglidiomab mediates a GD(2)-specific anti-neuroblastoma immune response.

PURPOSE: Immunotherapy targeting disialoganglioside GD(2) emerges as an important treatment option for neuroblastoma, a pediatric malignancy characterized by poor outcome. Here, we report the induction of a GD(2)-specific immune response with ganglidiomab, a new anti-idiotype antibody to anti-GD(2) antibodies of the 14.18 family. EXPERIMENTAL DESIGN AND RESULTS: Ganglidiomab was generated following immunization of Balb/c mice with 14G2a, and splenocytes were harvested to generate hybridoma cells. Clones were screened by ELISA for mouse antibody binding to hu14.18. One positive clone was selected to purify and characterize the secreted IgG protein (κ, IgG(1)). This antibody bound to anti-GD(2) antibodies 14G2a, ch14.18/CHO, hu14.18, and to immunocytokines ch14.18-IL2 and hu14.18-IL2 as well as to NK-92 cells expressing scFv(ch14.18)-zeta receptor. Binding of these anti-GD(2) antibodies to the nominal antigen GD(2) as well as GD(2)-specific lysis of neuroblastoma cells by NK-92-scFv(ch14.18)-zeta cells was competitively inhibited by ganglidiomab, proving GD(2) surrogate function and anti-idiotype characteristics. The dissociation constants of ganglidiomab from anti-GD(2) antibodies ranged from 10.8 ± 5.01 to 53.5 ± 1.92 nM as determined by Biacore analyses. The sequences of framework and complementarity-determining regions of ganglidiomab were identified. Finally, we demonstrated induction of a GD(2)-specific humoral immune response after vaccination of mice with ganglidiomab effective in mediating GD(2)-specific killing of neuroblastoma cells. CONCLUSION: We generated and characterized a novel anti-idiotype antibody ganglidiomab and demonstrated activity against neuroblastoma.