par Flamand, Véronique 
;Donckier De Donceel, Vincent ;Abramowicz, Daniel ;Goldman, Michel ;Vandenabeele, P;Urbain, Jacques ;Moser, Muriel ;Leo, Oberdan
Référence Cellular immunology, 157, 1, page (239-248)
Publication Publié, 1994-08
;Donckier De Donceel, Vincent ;Abramowicz, Daniel ;Goldman, Michel ;Vandenabeele, P;Urbain, Jacques ;Moser, Muriel ;Leo, Oberdan Référence Cellular immunology, 157, 1, page (239-248)
Publication Publié, 1994-08
Article révisé par les pairs
| Résumé : | The use of anti-CD3 monoclonal antibodies (mAb) to treat allograft rejection has been complicated by the morbidity observed during the first days of treatment, secondary to T cell activation and cytokine release. Available evidence in a mouse model indicates that F(ab')2 fragments of an anti-CD3 mAb are not mitogenic in vitro and can be injected in vivo without apparent toxicity. However, their immunosuppressive capacity is dramatically reduced, suggesting that long-term immunosuppression mediated by anti-CD3 antibodies in vivo may be associated to their mitogenic capacity. This paper demonstrates that a poorly mitogenic anti-CD3 mAb is able to induce potent immunosuppression in vivo with reduced morbidity. This finding suggests that immunosuppression in vivo by anti-CD3 mAbs is not directly related to their activation properties but nevertheless requires signaling capacities. Therefore, immunosuppression in vivo may be best achieved by using antibodies able to deliver an incomplete activation signal to T cells (thus avoiding systemic cytokine release), possibly leading to anergy. The implications of this study for the development of immunosuppressive antibodies are discussed. |
