Analyzing the Micro-topography Guidance of Dictyostelium Cells Using Microfabricated Structures.

Abstract

Over the last decade, the use of microfabricated substrates has proven pivotal for studying the effect of substrate topography on cell deformation and migration. Microfabrication techniques allow one to construct a transparent substrate with topographic features with high designability and reproducibility and thus well suited to experiments that microscopically address how spatial and directional bias are brought about in the cytoskeletal machineries and hence cell motility. While much of the progress in this avenue of study has so far been made in adhesive cells of epithelial and mesenchymal nature, whether related phenomena exist in less adhesive fast migrating cells is relatively unknown. In this chapter, we describe a method that makes use of micrometer-scale ridges to study fast-migrating Dictyostelium cells where it was recently shown that membrane evagination associated with macropinocytic cup formation plays a pivotal role in the topography sensing. The method requires only basic photolithography, and thus the step-by-step protocol should be a good entry point for cell biologists looking to incorporate similar microfabrication approaches.