The effects of fluoxetine on attachment and righting behaviours in marine ( Gibbula unbilicalis) and freshwater ( Lymnea stagnalis) gastropods

In this review, we describe the evolutionary process involved in the discovery of the selective 5-HT uptake inhibitor, fluoxetine, and summarize some of the large body of scientific research performed on fluoxetine in the 20 years since the first publication. The historical background of the proposed involvement of 5-HT in psychiatric disorders and the activity of tricyclic antidepressants in depression is reviewed. The effects of fluoxetine in various in vitro assays and in animal studies including receptor down-regulation, neurochemical and behavioral models are summarized. In addition, the clinical effectiveness of fluoxetine in depression and obsessive compulsive disorders and its potential use in other disorders are examined.

Pharmaceuticals have been reported in surface waters, prompting legitimate public concern, as pharmaceuticals are biologically active compounds used daily by the public. Currently there are ecotoxicological data available for fish > algae. Expert judgment is needed to assess specific hazards for classes like microbial resistance and antibiotics, sex hormones, and endocrine disruptors. As human health and the function of ecological systems are interconnected and subject to the precautionary principle, harmonization of evidence for correlation and causality of adverse effects seems sensible in an ethical and cost-effective context to facilitate substitution of hazardous compounds. Data available: http://www.uoguelph.ca/~hsander/.

The effects of serotonin altering parasites, serotonin, the anti-depressant fluoxetine, plus two other highly prescribed pharmaceuticals (carbamazepine and diclofenac) on the behaviour of the marine amphipod, Echinogammarus marinus were investigated. Acanthocephalan parasites are known to alter the swimming behaviour in their amphipod hosts through changes in serotonergic activity resulting in increased predation. Behavioural assays were adapted to record changes in phototaxis and geotaxis behaviour in male E. marinus following 7, 14 and 21 days exposure to serotonin and each pharmaceutical compound at 4 concentrations compared to a control (between 10 ng/L and 10 microg/L). E. marinus infected with acanthocephalans parasites had both significantly higher phototaxis and geotaxis scores than those of uninfected specimens. Phototaxis and geotaxis behaviour increased significantly in a concentration-dependent manner with exposure to serotonin. Fluoxetine significantly altered phototaxis and geotaxis activity in what appeared to be a non-monotonic concentration response curve with the greatest behavioural changes observed at 100 ng/L. The main patterns of these behavioural responses were consistent between two trials and the 3 weeks exposure with specimens spending more time within the light and occurring higher in the water column. No obvious trends could be concluded in the phototaxis and geotaxis scores from individuals exposed to carbamazepine or diclofenac as might be expected from their known mode of action. From this study phototaxis and geotaxis behaviour have been observed to be affected by exposure to serotonin modulators. Parasite studies have shown strong links between changes in behaviour and increased predation risk correlating with changes in serotonergic activity. This study has highlighted the potential for highly prescribed anti-depressant drugs to change the behaviour of an ecologically relevant marine species in ways which could conceivably lead to population level effects.