RESUMO
Allograft rejection and immunosuppression are two major issues in transplantation medicine. The specific targeting of alloreactive T cells, the initiators and promoters of allograft rejection, would be a promising strategy to reduce unwanted T-cell responses and side effects of lifelong immunosuppression. The novel humanized monoclonal antibody GZ-αßTCR, specific for the human αßT-cell receptor, was tested in vitro and in vivo for its specificity and efficacy to modulate the αßT-cell compartment. GZ-αßTCR moderately induced apoptosis in resting αßT cells in vitro, an effect considerably amplified in activated T cells. A single dose of GZ-αßTCR significantly reduced human CD45(+)CD3(+) T cells in vivo, with a preferential modulation of CD4(+) αßT cells. Importantly, naive T cells, the T-cell subset from which alloreactivity emanates, were significantly reduced. Simultaneously, a significant, compensatory increase of γδ T cells was observed in vitro and in vivo in both humanized mouse models examined. GZ-αßTCR did not induce cytokines and was well tolerated. Thus, specificity and high efficacy make GZ-αßTCR a powerful tool to selectively eliminate putatively detrimental T-cell subsets, a major goal in transplantation medicine. At the same time, GZ-αßTCR spares γδ and natural killer cells, thus leaving the recipient's immune system competent for cell-mediated immunoregulation and cell-mediated immunity.