Monoclonal antibody-based therapy for neuroblastoma.
Review
Overview
abstract
Dose-intensive combination chemotherapy can improve the clinical response of many pediatric solid tumors. However, cure remains elusive. Stage 4 neuroblastoma stands out as an exception. Part of this success is a result of antibody-based strategies, which include immunomagnetic purging of autologous marrow prior to autologous marrow transplantation and immunotherapy directed at minimal residual disease. It is striking that treatment with monoclonal antibodies, even when targeted at a single antigen, namely, ganglioside G(D2), can affect long-term progression-free survival among these patients. The potential role of the idiotype network in tumor control can be exploited clinically. The genetic engineering of these antibodies into novel forms holds great promise for more specific and effective targeting possibilities, including the delivery of cytokines and cells. Preclinical results are also promising. It is expected that the availability of novel antibodies directed at a broader spectrum of pediatric solid tumors will facilitate the successful application of this approach to more patients. Experience with metastatic neuroblastoma has provided proof of this principle. It is likely that other tumors will fall.