Effects of L-dopa and other amino acids against paraquat-induced nigrostriatal degeneration

Abstract

Exposure to the herbicide paraquat causes selective nigrostriatal degeneration and aggregation of α-synuclein in the mouse brain. The purpose of this study was to assess mechanisms of paraquat entry into the CNS and, in particular, the effects of substrates of the blood-brain barrier (BBB) neutral amino acid transporter (System L carrier) on paraquat accumulation and neurotoxicity. Using a paraquat antibody, robust immunoreactivity was observed in the midbrain of mice injected with the herbicide. This immunoreactivity was abolished by administration of L-valine or L-phenylalanine, two System L substrates, immediately before paraquat exposure. Pre-treatment with these amino acids completely protected against paraquat-induced loss of nigrostriatal dopaminergic cells and formation of thioflavine S-positive intracellular deposits. Interestingly, the anti-parkinsonian drug L-dopa, which is transported across the BBB through the same neutral amino acid carrier, was also neuroprotective when administered 30 min prior to paraquat. In contrast, paraquat-induced toxicity was unaffected if animals (i) were pre-treated with D-valine, the biologically inactive D-isomer of L-valine, or with L-lysine, a substrate of the basic rather than the neutral amino acid carrier, or (ii) were injected with L-dopa 24 h after paraquat exposure. Data are consistent with a critical role of uptake across the BBB in paraquat neurotoxicity, and suggest that dietary elements (e.g. amino acids) or therapeutic agents (e.g. L-dopa) may modify the effects of toxicants targeting the nigrostriatal system.