par Decrock, E;Krysko, Dmitri;Vinken, M;Kaczmarek, A;Crispino, G;Bol, M;Wang, N;De Bock, M;De Vuyst, E;Naus, C C;Rogiers, V;Vandenabeele, P;Erneux, Christophe 
;Mammano, F;Bultynck, Geert;Leybaert, L
Référence Cell death and differentiation, 19, 6, page (947-957)
Publication Publié, 2012-06
;Mammano, F;Bultynck, Geert;Leybaert, LRéférence Cell death and differentiation, 19, 6, page (947-957)
Publication Publié, 2012-06
Article révisé par les pairs
| Résumé : | Decades of research have indicated that gap junction channels contribute to the propagation of apoptosis between neighboring cells. Inositol 1,4,5-trisphosphate (IP₃) has been proposed as the responsible molecule conveying the apoptotic message, although conclusive results are still missing. We investigated the role of IP₃ in a model of gap junction-mediated spreading of cytochrome C-induced apoptosis. We used targeted loading of high-molecular-weight agents interfering with the IP₃ signaling cascade in the apoptosis trigger zone and cell death communication zone of C6-glioma cells heterologously expressing connexin (Cx)43 or Cx26. Blocking IP₃ receptors or stimulating IP₃ degradation both diminished the propagation of apoptosis. Apoptosis spread was also reduced in cells expressing mutant Cx26, which forms gap junctions with an impaired IP₃ permeability. However, IP₃ by itself was not able to induce cell death, but only potentiated cell death propagation when the apoptosis trigger was applied. We conclude that IP₃ is a key necessary messenger for communicating apoptotic cell death via gap junctions, but needs to team up with other factors to become a fully pro-apoptotic messenger. |
