Allospecific T cells are known to play a central role in the process of allograft rejection. Recently, it has been shown that T cell function could be specifically targeted using DNA vaccination. In our model, PCR analysis of the TCR-beta chain repertoire of T cells infiltrating rejected allografts showed specific expansions of the Vbeta13 and Vbeta2 families. In this study, we tested the effect on allograft survival of DNA vaccination against a specific TCR Vbeta, in a model of heart allograft rejection in adult rats. Our results showed that anti-TCR Vbeta13 DNA vaccination lead to a significant prolongation of allograft survival compared to vaccination against other Vbeta families or untreated recipients. The prolongation of allograft survival correlated in vitro with a decrease in anti-donor reactivity of spleen cells from Vbeta13-vaccinated rats. These results show that, in a transplantation model, DNA vaccination could be used as a method to specifically manipulate a T cell response and thus prolong allograft survival.