Visualization of caenorhabditis elegans cuticular structures using the lipophilic vital dye dil

Abstract

The cuticle of C. elegans is a highly resistant structure that surrounds the exterior of the animal. The cuticle not only protects the animal from the environment, but also determines body shape and plays a role in motility. Several layers secreted by epidermal cells comprise the cuticle, including an outermost lipid layer. Circumferential ridges in the cuticle called annuli pattern the length of the animal and are present during all stages of development. Alae are longitudinal ridges that are present during specific stages of development, including L1, dauer, and adult stages. Mutations in genes that affect cuticular collagen organization can alter cuticular structure and animal body morphology. While cuticular imaging using compound microscopy with DIC optics is possible, current methods that highlight cuticular structures include fluorescent transgene expression, antibody staining, and electron microscopy. Labeled wheat germ agglutinin (WGA) has also been used to visualize cuticular glycoproteins, but is limited in resolving finer cuticular structures. Staining of cuticular surface using fluorescent dye has been observed, but never characterized in detail. We present a method to visualize cuticle in live C. elegans using the red fluorescent lipophilic dye DiI (1,1'-dioctadecyl-3,3,3',3'-tetramethylindocarbocyanine perchlorate), which is commonly used in C. elegans to visualize environmentally exposed neurons. This optimized protocol for DiI staining is a simple, robust method for high resolution fluorescent visualization of annuli, alae, vulva, male tail, and hermaphrodite tail spike in C. elegans. © 2012 Journal of Visualized Experiments.