Examining the Effect of Pesticides on Caenorhabditis elegans Neurons.

Abstract

Caenorhabditis elegans is a powerful model organism used in many research laboratories to understand the consequences of exposure to chemical pollutants, pesticides, and a wide variety of toxic substances. These nematodes are easy to work with and can be used to generate novel research findings, even in the undergraduate biology laboratory. A multi-week laboratory series of authentic, student-driven research projects trains students in a toolkit of techniques and approaches in behavioral measurements, cell biology, and microscopy that they then apply to their projects. One technique in that toolkit is quantifying the percentage of neurons exhibiting neurodegenerative damage following exposure to a chemical toxicant like a pesticide. Young adult C. elegans nematodes can be exposed to different concentrations of commercially available pesticides or other types of toxicants for 2-24 h. Then, undergraduate students can visualize different neuron subtypes using fluorescent-expressing strains of C. elegans. These techniques do not require sophisticated image processing software and are effective at even low magnifications, making the need for expensive confocal microscopy unnecessary. This paper demonstrates how to treat the nematodes with pesticides and how to image and score the neurons. It also provides a straightforward protocol for the microscopy and analysis of neuron morphology. The materials used for this technique are inexpensive and readily available in most undergraduate biology departments. This technique can be combined with behavioral measures like locomotion, basal slowing, or egg-laying to conduct a potentially publishable series of experiments and give undergraduate students an authentic research experience at a very low cost.