Investigations into the cellular actions of the shellfish toxin gymnodimine and analogues

Abstract

The effects of the shellfish toxin gymnodimine and its analogues (gymnodimine acetate, gymnodimine methyl carbonate and gymnodamine) on cellular viability were tested using the Neuro2a neuroblastoma cell line. Concentrations of toxins up to 10 μM had variable effects on reducing cell number as determined using the MTT assay and no effects on the expression of a number of signal transduction proteins (c-Jun, ATF-2, ATF-3) which are sensitive to cellular stress. However, pre-exposure of Neuro2a cells to 10 μM concentrations of toxins for 24 h greatly sensitized these cells to the apoptotic effects of another algal toxin, okadaic acid. These results suggest that gymnodimine and its analogues sensitize Neuro2a cells to cytotoxins and raise the possibility that algal blooms involving the production of both okadaic acid-type molecules and gymnodimine may generate greater cytotoxicity and pose a greater public health problem. Furthermore, our studies establish the Neuro2a cell line as a potentially high-throughput cellular system sensitive to the pharmacological effects of gymnodimine and analogues, and as a potential screen for algal-derived toxins.