Microcontact Peeling: A Cell Micropatterning Technique for Circumventing Direct Adsorption of Proteins to Hydrophobic PDMS

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Abstract

Microcontact printing (μCPr) is one of the most popular techniques used for cell micropatterning. In conventional μCPr, a polydimethylsiloxane (PDMS) stamp with microfeatures is used to adsorb extracellular matrix (ECM) proteins onto the featured surface and transfer them onto particular areas of a cell culture substrate. However, some types of functional proteins other than ECM have been reported to denature upon direct adsorption to hydrophobic PDMS. Here we describe a detailed protocol of an alternative technique--microcontact peeling (μCPe)--that allows for cell micropatterning while circumventing the step of adsorbing proteins to bare PDMS. This technique employs microfeatured materials with a relatively high surface energy such as copper, instead of using a microfeatured PDMS stamp, to peel off a cell-adhesive layer present on the surface of substrates. Consequently, cell-nonadhesive substrates are exposed at the specific surface that undergoes the physical contact with the microfeatured material. Thus, although μCPe and μCPr are apparently similar, the former does not comprise a process of transferring biomolecules through hydrophobic PDMS. © 2017 by John Wiley & Sons, Inc.

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