Epitope- and Antigen-specific Cancer Vaccines

Abstract

Anti-idiotypic antibodies (Ab2) that functionally mimic epitopes associated with human cancer cells are the most specific cancer vaccines currently available. Ab2 can induce specific humoral anti-tumor immunity in cancer patients. However, the potential of Ab2 for inducing cellular immunity in cancer patients still requires demonstration. Clonotypic antibodies directed against the combining site for tumor Ag on human T-cell clones may provide highly effective reagents for inducing protective T-cell immunity against human cancer. A new generation of cancer vaccines, molecularly cloned tumor-associated antigens (Ag), has recently been developed. Recombinant Ag have been successfully expressed in vectors allowing large scale production of Ag for immunization of cancer patients. Recombinant tumor Ag was shown to induce specific and protective immunity in experimental animals. In contrast to Ab2, which may mimic a single cancer-associated epitope, recombinant Ag express multiple epitopes that are potentially immunogenic. Ag vaccines, therefore, may be more effective in arresting tumor growth than single epitope (Ab2) vaccines because tumor destruction by antibodies is dependent on antibody density on tumor cell surfaces. In light of the important roles that both B and T cells play in the control of tumor growth, the demonstration of induction of specific B and T cell-immunity by recombinant tumor Ag and Ab2 in experimental animals is encouraging. Ultimately, the immunomodulatory role of both types of vaccines has to be compared in cancer patients who are immunologically tolerant to many Ag/epitopes expressed by their growing tumors. The development of both Ab2 and recombinant Ag for single antigenic systems provides the first step towards this goal.