The existence of inherited aggressive forms of medullary thyroid carcinoma (MTC), and their resistance to all classical therapies, make it a prime candidate for adoptive immunotherapy. As a prelude to a vaccine for the protection of family members at risk of developing the disease, we investigated the immunological antitumour response provoked by the 6/23 rMTC cell line, compared to that of the same cell engineered to secrete interleukin-2 (rMTC-IL2), in an animal model of familial human MTC, the inbred strain of Wag/Rij rats. The rMTC cells developed a tumour that invaded the whole neck 15 days after orthotopic injection (into the thyroid), while the rMTC-IL2 cells were progressively rejected. Co-injection of rMTC-IL2 with the parental cells induced the rejection of the rMTC transplants. When injected, both tumoral cell types showed a similar positive immunoreaction with anti-MHC class I (major histocompatibility complex class I) antibodies. They both recruited natural killer cells and eosinophils at the site of injection. In addition, CD8+ T lymphocytes infiltrated the rMTC-IL2 cells, and eosinophil recruitment was amplified. Neutrophils, macrophages and CD4+ T lymphocytes were scarce. Our results suggest that the CD8+ T lymphocytes are implicated in the anti-tumour reaction elicited by the IL-2-transfected cells. As these effectors are known to induce a specific immunological response, including memory, such a protocol should be tested as a vaccine on the young population genetically at risk of developing a MTC.