In mice lacking the enzyme monoamine oxidase B (MAO-B), the neurotoxin DSP-4 caused the same loss of norepinephrine in brain regions as it did in normal mice, indicating MAO-B is not involved in DSP-4 toxicity. For the neurotoxin MDMA (ecstasy), MAO-B deficiency prevented the serotonin depletion normally seen in wild-type mice but led to a more pronounced dopamine loss. These results suggest MAO-B plays opposite roles in MDMA-induced damage to dopamine and serotonin systems.
Repeated small doses of MDMA produce a lasting pro-convulsant effect that lowers the threshold for limbic seizures and increases metabolic hyperexcitability in mice, even before structural changes like mossy fiber sprouting appear. While clinical seizures after MDMA use are often attributed to acute effects such as hyponatremia and hyperthermia, additional mechanisms involving monoaminergic systems may also contribute. Chronic effects of MDMA on seizure threshold have been underexplored, and this review presents preliminary data showing that seizure susceptibility emerges early, without accompanying mossy fiber sprouting.