par Eizirik, Decio L. 
;Sandler, S;Palmer, J P
Référence Diabetes (New York, N.Y.), 42, 10, page (1383-1391)
Publication Publié, 1993
;Sandler, S;Palmer, J PRéférence Diabetes (New York, N.Y.), 42, 10, page (1383-1391)
Publication Publié, 1993
Article révisé par les pairs
| Résumé : | Most studies dealing with the pathogenesis of IDDM have emphasized the immune assault against beta-cells. In this perspective, we review the data that suggest that the beta-cell destruction of IDDM depends on a balance between beta-cell damage and repair. The progressive beta-cell damage leading to IDDM seems to follow markedly different temporal courses in individual patients. Some individuals at high risk for developing IDDM, and presenting with impaired beta-cell function, appear to recover beta-cell function when followed prospectively. Moreover, after the clinical onset of IDDM, most patients experience a transitory period of improved insulin secretion. In vitro and in vivo experimental data suggest that beta-cells are indeed able to repair themselves after damage. Dispersed beta-cells or whole islets can survive and regain their function after a toxic assault. Furthermore, the abnormal insulin release and glucose oxidation of islets isolated from NOD mice during the prediabetic period is completely restored after 1 wk in tissue culture. Finally, treatment of NOD mice with monoclonal antibodies directed against infiltrating T-cells reverses the altered glucose metabolism of beta-cells. Note that beta-cell repair after exposure to different toxic agents can be enhanced both in vivo and in vitro. Potential enhancers of beta-cell repair are nicotinamide, glucose, protein-rich diets, and branched chain amino acids. A basic question that remains to be answered is the nature of the repair mechanisms triggered by beta-cells.(ABSTRACT TRUNCATED AT 250 WORDS) |
