Adoptive immunotherapy involving recombinant human M-CSF and R24 anti-melanoma antibody induces human T-cell infiltration into human melanoma xenografts

Immunotherapy of malignant melanoma

Several areas of immunotherapeutic research may ultimately improve the effectiveness of active specific immunotherapy for melanoma and other malignancies. Identification of the most relevant tumor antigens will continue to be a vital component of vaccine design. Optimizing delivery of these antigens by use of adjuvants, dendritic cells, or heat shock proteins will enhance the immunogenicity of vaccines. The use of DNA vaccines to deliver nucleotides that encode relevant antigens and immunologic molecules, such as costimulatory molecules, and the use of targeted therapy with immunocytokines have yielded promising results in animal studies. Finally, cutting-edge techniques such as quantitative polymerase chain reaction and gene/protein microarrays will be used to monitor the response to a vaccine and thereby guide management decisions. Although IFN-alpha 2b is the only FDA-approved adjuvant treatment for AJCC stage IIB/III melanoma, recent data failed to show a benefit in overall survival. For patients with AJCC stage IV melanoma, chemotherapy with dacarbazine is currently the standard of care, with modest response rates of 15% to 20%. The encouraging response rates and low toxicities that were reported in phase I/III trials suggest that active immunotherapy may prove to be the most effective adjuvant therapy. At present, there are no FDA-approved cancer vaccines for malignant melanoma, and the results of ongoing randomized phase III clinical trials are greatly anticipated.

Targeted therapy for malignant melanoma

There has been much development in the field of targeted therapy for melanoma stemming from efforts to decrease treatment-related toxicities and enhance specific cytotoxicity. This review focuses on three modalities of targeted melanoma therapy based on the biology of the targeting mechanism. The first of these modalities is immunotherapy, which functions to generate a specific antimelanoma immunity. A second modality utilizes metabolic pathways of melanin synthesis to target melanoma cells specifically. A third modality ensues from recent advances in molecular biology and the identification of genes responsible for the malignant transformation of normal melanocytes to melanomas. This work has furthered our understanding of the basis of malignancy, as well as the development of novel strategies aimed at targeting aberrant growth in melanoma.