Gene therapy may be defined as a treatment modality in which genetic material is introduced into cells to modify cellular function. Diseases that result from inheritance of a single functionally defective gene, present the most logical target for gene therapy. However, cancer results from an accumulation of several genetic a l t e rations. Accordingly, replacement of all defective genes to treat cancer is a daunting task. Several alternatives have been explored for thyroid cancer gene therapy. Most of these strategies involve introduction of genes to augment existing therapies. In this article, we review the different vehicles used for delivery of genes and (Table 1) current thyroid cancer gene therapy strategies (Table 2), including: 1) Corrective cancer gene therapy: a) introduction of tumor supresor gene p53 1 1 – 1 3, b) re – e x p resion of NIS in anaplastic thyroid cancer 15-19 and c) inactivation of c-myc oncogene by antisense therapy 30; 2) “Suicide” gene therapy ( F i g u re 1) 1 5 – 1 9; 3) Immunomodulating gene therapy: a) with IL-2 2 0 – 2 2, b) active immunization with calcitonine 2 9, and 4) introduction of genes with dominant negative mutations like RET protooncogene 32. Notwithstanding the disappointing preliminary results, thyroid cancer gene therapy has become an e s t a blished concept in medicine. Future success of gene therapy for thyroid tumors will rely on the progress of basic science and discovery of new disease related genes.