Matrix Nanotopography as a Regulator of Cell Function
Deok-Ho Kim (1), Paolo P. Provenzano, Chris L. Smith, and Andre Levchenko
(1) University of Washington
JCB, 197(3), 351-360(2012)
Abstract: The architecture of the extracellular matrix (ECM) directs cell behavior by providing spatial and mechanical cues to which cells respond. In addition to soluble chemical factors, physical interactions between the cell and ECM regulate primary cell processes, including differentiation, migration, and proliferation. Advances in microtechnology and, more recently, nanotechnology provide a powerful means to study the influence of the ECM on cell behavior. By recapitulating local architectures that cells encounter in vivo, we can elucidate and dissect the fundamental signal transduction pathways that control cell behavior in critical developmental, physiological, and pathological processes.
Materials & Methods: Refer to paper.
Microscopic Technique: Scanning Electron Microscopy
Cell Type(s): Fibroblast Cells, Stem Cells, hMSCs, NIH 3T3, and CHO