High Refractive Index Silicone Gels for Simultaneous Total Internal Reflection Fluorescence and Traction Force Microscopy of Adherent Cells

A Saez; Achim Besser; AE Brown; AJ Engler; AK Harris; Alex Groisman; B Sabass; BC Isenberg; BJ Dubin-Thaler; CC Feral; D Axelrod; D Krndija; DE Discher; DE Ingber; E Gutierrez; Edgar Gutierrez; Eugene Tkachenko; Gaudenz Danuser; GC Reilly; J Riedl; J Stricker; JE Mark; K Burton; K Hu; Klaus Ley; L Ji; L Pelkmans; Laurent Kreplak; M Dembo; Mark H. Ginsberg; MH Zaman; MJ Paszek; NQ Balaban; P Sundd; Prithu Sundd; RJ Pelham; S Nemir; US Schwarz; WH Guo; WM Reichert; Y Iwadate; Y Iwadate

High Refractive Index Silicone Gels for Simultaneous Total Internal Reflection Fluorescence and Traction Force Microscopy of Adherent Cells

Authors: A Saez
Achim Besser
AE Brown
AJ Engler
AK Harris
Alex Groisman
B Sabass
BC Isenberg
BJ Dubin-Thaler
CC Feral
D Axelrod
D Krndija
DE Discher
DE Ingber
E Gutierrez
Edgar Gutierrez
Eugene Tkachenko
Gaudenz Danuser
GC Reilly
J Riedl
J Stricker
JE Mark
K Burton
K Hu
Klaus Ley
L Ji
L Pelkmans
Laurent Kreplak
M Dembo
Mark H. Ginsberg
MH Zaman
MJ Paszek
NQ Balaban
P Sundd
Prithu Sundd
RJ Pelham
S Nemir
US Schwarz
WH Guo
WM Reichert
Y Iwadate
Y Iwadate
Publication date: 22 September 2011
Publisher: Public Library of Science
Doi

Abstract

Substrate rigidity profoundly impacts cellular behaviors such as migration, gene expression, and cell fate. Total Internal Reflection Fluorescence (TIRF) microscopy enables selective visualization of the dynamics of substrate adhesions, vesicle trafficking, and biochemical signaling at the cell-substrate interface. Here we apply high-refractive-index silicone gels to perform TIRF microscopy on substrates with a wide range of physiological elastic moduli and simultaneously measure traction forces exerted by cells on the substrate