Zebrafish embryos are susceptible to the dopaminergic neurotoxin MPTP.

The neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) induces selective loss of dopaminergic neurons in the mammalian midbrain, eliciting symptoms characteristic of Parkinson's disease. By exploiting the advantages of zebrafish embryos, we report here that dopaminergic neurons in this species are specifically perturbed when exposed to MPTP. In contrast to mammals, the zebrafish does not possess a midbrain dopaminergic system. Instead, the main population of neurons expressing the dopamine transporter is located in the posterior tuberculum of the diencephalon. Exposure of embryos to MPTP led to a pronounced reduction in the number of dopaminergic cells in the diencephalon. This effect can be reversed by deprenyl, a specific inhibitor of monoamine oxidase B that catalyses the conversion of MPTP to its active metabolite, MPP+. Similarly, direct treatment of embryos with MPP+ abolished the diencephalic dopaminergic neurons. These larvae also demonstrated behavioural defects in swimming responses. Thus, dopaminergic neurons in the posterior tuberculum of the zebrafish may be homologous to the midbrain dopaminergic system of mammals. In addition, the mechanism behind the loss of dopaminergic neurons following pharmacological perturbation may be conserved among vertebrates and suggest that the zebrafish can be used as a convenient and economical system to study the pathogenesis of Parkinson's disease and for testing potential therapeutic strategies.