Neurobiology of Disease (Aug 2000)
A Novel Neuroprotective Mechanism of Riluzole: Direct Inhibition of Protein Kinase C
Abstract
In addition to its antiexcitotoxic action, the anti-amyotrophic lateral sclerosis (ALS) neuroprotectant riluzole protects against nonexcitotoxic oxidative neuronal injury. In light of evidence that protein kinase C (PKC) mediates oxidative stress in cortical culture, we examined the possibility that riluzole's antioxidative neuroprotection involves PKC inhibition. Riluzole (30 μM) blocked phorbol 12-myristate 13-acetate (PMA)-induced increases in membrane PKC activity in cultured cortical cells. Suggesting a direct action, riluzole also inhibited the activity of purified PKC. Consistently, both PKC depletion and oxidative neuronal death induced by PMA were markedly attenuated by riluzole. The site of action of riluzole on PKC was not likely the diacylglycerol binding site but the catalytic domain, since riluzole did not alter radiolabeled phorbol-12,13-dibutyrate binding, but inhibited PKM, the catalytic domain of PKC. However, increasing ATP concentrations did not alter the inhibition of PKC by riluzole, making it unlikely that riluzole is a competitive inhibitor of ATP binding at PKM. Present results have demonstrated that riluzole directly inhibits PKC, which action may contribute to its antioxidative neuroprotective effects. In addition, it appears possible that PKC inhibition may be able to explain some of its well-known channel inhibitory and neuroprotective effects. Combined with findings that PKC activity is increased in ALS, the present results suggest that PKC may be a potential therapeutic target in ALS.
