Apical surface supracellular mechanical properties in polarized epithelium using noninvasive acoustic force spectroscopy.
Alexander X Cartagena-RiveraChristina M Van ItallieJames M AndersonRichard S ChadwickPublished in: Nature communications (2017)
Maintenance of epithelial tissue integrity requires coordination between cell-cell adherens junctions, tight junctions (TJ), and the perijunctional actomyosin cytoskeleton. Here we addressed the hypothesis that alterations in TJ structure and remodeling of the actomyosin cytoskeleton modify epithelial mechanics. Current methods to measure supracellular mechanical properties disrupt intact monolayers, therefore, we developed a novel method using noncontact acoustic frequency-modulation atomic force microscopy (FM-AFM) and tested it on MDCK polarized monolayers. Our results show that double knockdown (dKD) of ZO-1/ZO-2 elevates the apical epithelial tension and effective viscosity. Interestingly, epithelial tension is more sensitive to inhibition of myosin II ATPase activity than to inhibition of ROCK activity, but viscosity is highly sensitive to both. Additionally, we showed epithelial intercellular pulling forces at tricellular junctions and adhesion forces in dKD cells are elevated with an increase in contractility. In conclusion, FM-AFM enables the physiological and quantitative investigation of mechanics in intact epithelium.
Keyphrases
- single molecule
- atomic force microscopy
- high speed
- single cell
- living cells
- high resolution
- induced apoptosis
- cell therapy
- stem cells
- cell proliferation
- cell death
- pseudomonas aeruginosa
- cell adhesion
- staphylococcus aureus
- binding protein
- mesenchymal stem cells
- smooth muscle
- simultaneous determination
- endoplasmic reticulum