Scientific Reports (May 2020)

Combined Atomic Force Microscope and Volumetric Light Sheet System for Correlative Force and Fluorescence Mechanobiology Studies

  • E. Nelsen,
  • C. M. Hobson,
  • M. E. Kern,
  • J. P. Hsiao,
  • E. T. O’Brien III,
  • T. Watanabe,
  • B. M. Condon,
  • M. Boyce,
  • S. Grinstein,
  • K. M. Hahn,
  • M. R. Falvo,
  • R. Superfine

DOI
https://doi.org/10.1038/s41598-020-65205-8
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 12

Abstract

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Abstract The central goals of mechanobiology are to understand how cells generate force and how they respond to environmental mechanical stimuli. A full picture of these processes requires high-resolution, volumetric imaging with time-correlated force measurements. Here we present an instrument that combines an open-top, single-objective light sheet fluorescence microscope with an atomic force microscope (AFM), providing simultaneous volumetric imaging with high spatiotemporal resolution and high dynamic range force capability (10 pN – 100 nN). With this system we have captured lysosome trafficking, vimentin nuclear caging, and actin dynamics on the order of one second per single-cell volume. To showcase the unique advantages of combining Line Bessel light sheet imaging with AFM, we measured the forces exerted by a macrophage during FcɣR-mediated phagocytosis while performing both sequential two-color, fixed plane and volumetric imaging of F-actin. This unique instrument allows for a myriad of novel studies investigating the coupling of cellular dynamics and mechanical forces.