Swainsonine as a lysosomal toxin affects dopaminergic neurons

Abstract

Swainsonine (SW) is an indolizidine triol plant alkaloid isolated from the species Astragalus, colloquially termed locoweed. When chronically ingested by livestock and wildlife, symptoms include severe neuronal disturbance. Toxicity to the central and peripheral nervous system is caused by inhibition of lysosomal α-mannosidase (AMA) and accumulation of intracellular oligosaccharide. Consequently, SW has been used as a model substance in investigations of lysosomal storage diseases. Involvement of the basal ganglia has been postulated due to the neuronal symptoms of affected animals. Therefore, primary midbrain cultures from embryonic mice containing dopaminergic neurons were utilized in this study. Neural cells were exposed to SW (0.01-100 μM) for 72 h. AMA activity was 50 % inhibited at 1 μM SW. Cytotoxic changes in cultures were observed above 25 μM SW by increases in lactate dehydrogenase activity and nitric oxide content. Neurotoxicity to dopaminergic cells was visualized by tyrosine hydroxylase immunohistochemistry. Structural degeneration scored as dendritic shortening and shrinkage of cell bodies was dose-dependent and resulted in nerve loss above 25 μM. SW exposure caused progression from reversible to irreversible cytotoxicity. Partial regeneration of AMA-activity in culture was observed on removal of SW. The antioxidative vitamins ascorbic acid and tocopherol (both 100 μM) partially reversed the toxic effect on dopaminergic cells and ascorbic acid decreased AMA inhibition. Thus, neuronal midbrain cell cultures can demonstrate the neurotoxic action of SW and cytoprotective strategies may be tested at a single nerve cell level.