Expression of large numbers of different costimulatory integrin ligands (CILs) attributes dendritic cells with an ability to induce primary anti-tumor immune responses. Here, we show that optimized gene transfer of the xenogeneic (human) CILs VCAM-1, MAdCAM-1 and ICAM-1 causes rapid and complete rejection of established mouse EL-4 tumors, and generates prolonged systemic anti-tumor immunity; whereas human E-cadherin weakly slows tumor growth. In each case the immune response was mediated by CD8+ T cells and NK cells, accompanied by augmented tumor-specific cytolytic T cell (CTL) activity involving both the perforin and Fas-ligand pathways. Adoptive transfer of splenocytes from cured mice rapidly cleared established tumors in recipients. The mechanism for CIL-mediated immunity is unknown, but may involve CTL-facilitated tumor lysis, since CTLs were generally twice as efficient at killing CIL-transfected tumor cells than parental tumor cells. Optimized CIL-based gene therapy may provide an approach to complement or replace conventional DC adoptive cell therapy for suppressing tumor growth.