Abstract
Lithium has been used as an effective mood-stabilizing drug for the treatment of manic episodes and depression for 50 years. More recently, lithium has been found to protect neurons from death induced by a wide array of neurotoxic insults. However, the molecular basis for the prophylactic effects of lithium have remained obscure. A target of lithium, glycogen synthase kinase 3 (GSK-3), is implicated in neuronal death after trophic deprivation. The mechanism whereby GSK-3 exerts its neurotoxic effects is also unknown. Here we show that lithium blocks the canonical c-Jun apoptotic pathway in cerebellar granule neurons deprived of trophic support. This effect is mimicked by the structurally independent inhibitors of GSK-3, FRAT1, and indirubin. Like lithium, these prevent the stress induced c-Jun protein increase and subsequent apoptosis. These events are downstream of c-Jun transactivation, since GSK-3 inhibitors block neuronal death induced by constitutively active c-Jun (Ser/Thr→Asp) and FRAT1 expression inhibits AP1 reporter activity. Consistent with this, AP1-dependent expression of proapoptotic Bim requires GSK-3-like activity. These data suggest that a GSK-3-like kinase acts in tandem with c-Jun N-terminal kinase to coordinate the full execution of the c-Jun stress response and neuronal death in response to trophic deprivation.
ACKNOWLEDGMENTS
This work was supported by Academy of Finland project grants 47536 and 49949 and the Life 2000 grant 50037, by Åbo Akademi University, and by the Borgs Stiftelsen and the Deutsche Forschungsgemeinschaft SFB 415.
We thank Dirk Bohmann, John Kyriakis, Martin Dickens, Bruce Mayer, Michael Birrer, Sander van den Heuvel, Ami Aronheim, Roger Davis, and Tuula Kallunki for providing reagents and Giedre Smiciene for technical assistance.