https://doi.org/10.25678/000607

Data for: Zebrafish larvae rapidly recover from effects caused by cholinergic insecticides

Owing to the importance of acetylcholine as neurotransmitter, many insecticides target the cholinergic system. Across phyla, cholinergic signaling is essential for many neuro-developmental processes including axonal pathfinding and synaptogenesis. Consequently, early-life exposure to such insecticides can disturb these processes, resulting in an impaired nervous system. One test frequently used to assess developmental neurotoxicity is the zebrafish light-dark transition test, which measures larval locomotion as response to light changes. However, it is only poorly understood which structural alterations cause insecticide-induced locomotion defects and how persistent these alterations are. Therefore, this study aimed to link locomotion defects with effects on neuromuscular structures, including motorneurons, synapses and muscles, and to investigate the longevity of effects. The cholinergic insecticides diazinon and dimethoate (organophosphates), methomyl and pirimicarb (carbamates), and imidacloprid and thiacloprid (neonicotinoids) were used to induce hypoactivity. Our analyses revealed that some insecticides did not alter any of the structures assessed, while others affected axon branching (methomyl, imidacloprid) or muscle integrity (methomyl, thiacloprid). The majority of effects, even structural, were reversible within 24 to 72 hours. Overall, we find that both, neurodevelopmental and non-neurodevelopmental effects of different longevity can account for reduced locomotion. These findings provide unprecedented insights into the underpinnings of insecticide-induced hypoactivity.

Data and Resources

Citation

This Data Package

Koenemann, S., von Wyl, M., & vom Berg, C. (2022). Data for: Zebrafish larvae rapidly recover from effects caused by cholinergic insecticides (Version 1.0). Eawag: Swiss Federal Institute of Aquatic Science and Technology. https://doi.org/10.25678/000607
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The associated article

Könemann, S., von Wyl, M., & vom Berg, C. (2022). Zebrafish Larvae Rapidly Recover from Locomotor Effects and Neuromuscular Alterations Induced by Cholinergic Insecticides. Environmental Science & Technology, 56(12), 8449–8462. https://doi.org/10.1021/acs.est.2c00161
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Metadata

  Publication Data Package for:
Author
  • Koenemann, Sarah
  • von Wyl, Melissa
  • vom Berg, Colette
Keywords recovery,neuromuscular junction,immunohistochemistry,locomotion,axon growth,muscle development,birefringence
Substances (scientific names)
  • Diazinon, 1S/C12H21N2O3PS/c1-6-15-18(19,16-7-2)17-11-8-10(5)13-12(14-11)9(3)4/h8-9H,6-7H2,1-5H3
  • Dimethoate, InChI=1S/C5H12NO3PS2/c1-6-5(7)4-12-10(11,8-2)9-3/h4H2,1-3H3,(H,6,7)
  • Flonicamid, InChI=1S/C9H6F3N3O/c10-9(11,12)7-1-3-14-5-6(7)8(16)15-4-2-13/h1,3,5H,4H2,(H,15,16)
  • Imidacloprid, InChI=1S/C9H10ClN5O2/c10-8-2-1-7(5-12-8)6-14-4-3-11-9(14)13-15(16)17/h1-2,5H,3-4,6H2,(H,11,13)
  • Methomyl, InChI=1S/C5H10N2O2S/c1-4(10-3)7-9-5(8)6-2/h1-3H3,(H,6,8)/b7-4+
  • Pirimicarb, InChI=1S/C11H18N4O2/c1-7-8(2)12-10(14(3)4)13-9(7)17-11(16)15(5)6/h1-6H3
  • Pymetrozine, InChI=1S/C10H11N5O/c1-8-7-15(10(16)14-13-8)12-6-9-3-2-4-11-5-9/h2-6H,7H2,1H3,(H,14,16)/b12-6+
  • Thiacloprid, InChI=1S/C10H9ClN4S/c11-9-2-1-8(5-13-9)6-15-3-4-16-10(15)14-7-12/h1-2,5H,3-4,6H2
Substances (generic terms)
  • carbamates
  • insecticides
  • neonicotinoids
  • organophosphates
  • pyridine-derivates
Taxa (scientific names)
  • Danio rerio
Organisms (generic terms)
  • zebrafish
Systems
  • laboratory
Timerange
  • 2020 TO 2021
Review Level general
Curator Koenemann, Sarah
Contact vom Berg, Colette <Colette.vomBerg@eawag.ch>
DOI 10.25678/000607