Correlative Light and Scanning Electron Microscopy to Study Interactions of Salmonella enterica with Polarized Epithelial Cell Monolayers

Abstract

Live cell fluorescence imaging is the method of choice to visualize dynamic cellular processes in time and space, such as adhesion to and invasion of polarized epithelial cells by Salmonella enterica sv. Typhimurium. Scanning electron microscopy provides highest resolution of surface structures of infected cells, providing ultrastructure of the apical side of host cells and infecting Salmonella. Combining both methods toward correlative light and scanning electron microscopy (CLSEM) enables new insights in adhesion and invasion mechanisms regarding dynamics over time, and high spatial resolution with precise time lines. To correlate fast live cell imaging of polarized monolayer cells with scanning electron microscopy, we developed a robust method by using gold mesh grids as convenient CLSEM carriers for standard microscopes. By this, we were able to unravel the morphology of the apical structures of monolayers of polarized epithelial cells at distinct time points during Salmonella infection. © 2021, Springer Science+Business Media, LLC, part of Springer Nature.