Abstract
Organophosphorus compounds (OP) are highly toxic molecules used as insecticides that inhibit cholinesterase enzymes involved in neuronal transmission. The intensive use of OP for vector control and agriculture has led to environmental pollutions responsible for severe intoxications and putative long-term effects on humans and wild animals. Many in vivo models were studied over the years to assess OP acute toxicity, but the long-term effects are poorly documented. Planarian, a freshwater flatworm having a cholinergic system, has emerged as a new original model for addressing both toxicity and developmental perturbations. We used Schmidtea mediterranea planarians to evaluate long-term effects of paraoxon-ethyl at two sublethal concentrations over three generations. Toxicity, developmental perturbations and disruption of behavior were rapidly observed and higher sensitivity to paraoxon-ethyl of next generations was noticed suggesting that low insecticide doses can induce transgenerational effects. With the view of limiting OP poisoning, SsoPox, an hyperthermostable enzyme issued from the archaea Saccharolobus solfataricus, was used to degrade paraoxon-ethyl prior to planarian exposure. The degradation products, although not lethal to the worms, were found to decrease cholinesterase activities for the last generation of planarians and to induce abnormalities albeit in lower proportion than insecticides.
Highlights
Organophosphorus compounds (OP) are highly toxic molecules used as insecticides that inhibit cholinesterase enzymes involved in neuronal transmission
Insecticides are widely used for vector control to limit disease transmission as well as for pest control in veterinary applications or in agriculture to protect crops[1]
The intensive use of OP in agriculture has led to the pollution of soils and effluents causing many intoxications every year and are suspected to be associated with developmental disturbances and long term effects upon chronic exposure[5,6,7,8]
Summary
Organophosphorus compounds (OP) are highly toxic molecules used as insecticides that inhibit cholinesterase enzymes involved in neuronal transmission. To evaluate the consequences of chronic exposure in planarians at sublethal doses of paraoxon-ethyl, a long-term experiment was conducted by exposing three generations of worms to insecticide concentrations of 5 μM and 0.5 μM corresponding to 1/2 and 1/20 of the NOEC determined for intact worms (Supplementary Fig. 2).
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