Biology Open (Mar 2020)

Single cell force profiling of human myofibroblasts reveals a biophysical spectrum of cell states

  • Thomas B. Layton,
  • Lynn Williams,
  • Huw Colin-York,
  • Fiona E. McCann,
  • Marisa Cabrita,
  • Marc Feldmann,
  • Cameron Brown,
  • Weilin Xie,
  • Marco Fritzsche,
  • Dominic Furniss,
  • Jagdeep Nanchahal

DOI
https://doi.org/10.1242/bio.049809
Journal volume & issue
Vol. 9, no. 3

Abstract

Read online

Mechanical force is a fundamental regulator of cell phenotype. Myofibroblasts are central mediators of fibrosis, a major unmet clinical need characterised by the deposition of excessive matrix proteins. Traction forces of myofibroblasts play a key role in remodelling the matrix and modulate the activities of embedded stromal cells. Here, we employ a combination of unsupervised computational analysis, cytoskeletal profiling and single cell traction force microscopy as a functional readout to uncover how the complex spatiotemporal dynamics and mechanics of living human myofibroblast shape sub-cellular profiling of traction forces in fibrosis. We resolve distinct biophysical communities of myofibroblasts, and our results provide a new paradigm for studying functional heterogeneity in human stromal cells.

Keywords