Adoptive Cell Transfer and Vaccines in Melanoma: The Horizon Comes Into View.

Abstract

Over the past four decades, cancer immunotherapy for melanoma has evolved from single-agent, type-I cytokine therapy to combination immune checkpoint inhibition. Along the way, breakthroughs in the fields of cell therapy and cancer vaccination have been made as well. The early data from adoptive cell therapy, involving the delivery of tumor infiltrating lymphocytes harvested from resected tumors, was generated at the National Cancer Institute. Subsequently, a limited number of centers across the globe have developed programs to deliver these therapies. Recently, more widespread availability of this therapy has been made possible by centralizing the growth and expansion of tumor infiltrating lymphocyte products, then distributing the products for delivery of therapy at numerous academic medical centers. Work is ongoing to optimize these treatments with additional cell types and/or modified cell products, and to determine the best ways of combining these treatments with immune checkpoint inhibition. Similarly, tumor vaccination strategies are undergoing dramatic changes, transitioning the field from peptide-based vaccines to next-generation sequencing and T-cell receptor sequencing. These changes help improve the selection of targeted antigens by finding more immunogenic options, and they help with the development of lipid nanoparticles and mRNA delivery. In short, evolution of the approaches that are revolutionizing infectious disease vaccination has been ongoing, and there are promising preliminary data in patients with melanoma.