@article{e7324ee5cc9649e680111ff674a9ec98,
title = "Techniques to stimulate and interrogate cell–cell adhesion mechanics",
abstract = "Cell–cell adhesions maintain the mechanical integrity of multicellular tissues and have recently been found to act as mechanotransducers, translating mechanical cues into biochemical signals. Mechanotransduction studies have primarily focused on focal adhesions, sites of cell-substrate attachment. These studies leverage technical advances in devices and systems interfacing with living cells through cell–extracellular matrix adhesions. As reports of aberrant signal transduction originating from mutations in cell–cell adhesion molecules are being increasingly associated with disease states, growing attention is being paid to this intercellular signaling hub. Along with this renewed focus, new requirements arise for the interrogation and stimulation of cell–cell adhesive junctions. This review covers established experimental techniques for stimulation and interrogation of cell–cell adhesion from cell pairs to monolayers.",
keywords = "BioMEMS, Cell mechanics, Cell–cell adhesion, FRET, Mechanobiology",
author = "Ruiguo Yang and Broussard, {Joshua A.} and Green, {Kathleen J.} and Espinosa, {Horacio D.}",
note = "Funding Information: The authors acknowledge contributions made by O. Loh, M. Naghari, A. Beese, and K. Nandy towards the design and acquisition of images discussed in relation to cell–cell junction testing with microsystems. This work would have not been possible without the support from the McCormick School of Engineering through a catalyst award. This work was in part supported by NIH grants from NIAMS (AR041836 and AR043380) and NCI (CA122151). R. Yang gratefully acknowledges financial support from the Nebraska Center for Integrated Biomolecular Communication (NCIBC) (NIH National Institutes of General Medical SciencesP20 GM113126). A. Monemian and J. Rosenbohm helped with literature search and their contributions are acknowledged. Funding Information: The authors acknowledge contributions made by O. Loh, M. Naghari, A. Beese, and K. Nandy towards the design and acquisition of images discussed in relation to cell–cell junction testing with microsystems. This work would have not been possible without the support from the McCormick School of Engineering through a catalyst award. This work was in part supported by NIH grants from NIAMS ( AR041836 and AR043380 ) and NCI ( CA122151 ). R. Yang gratefully acknowledges financial support from the Nebraska Center for Integrated Biomolecular Communication (NCIBC) ( NIH National Institutes of General Medical Sciences P20 GM113126 ). A. Monemian and J. Rosenbohm helped with literature search and their contributions are acknowledged. Publisher Copyright: {\textcopyright} 2017 Elsevier Ltd",
year = "2018",
month = apr,
doi = "10.1016/j.eml.2017.12.002",
language = "English (US)",
volume = "20",
pages = "125--139",
journal = "Extreme Mechanics Letters",
issn = "2352-4316",
publisher = "Elsevier Limited",
}