Microcontact printing (MCP) is used to pattern a surface with a specific compound, allowing the spatially restricted response of cells to be assayed as they encounter a molecule of interest. MCP is a relatively low-cost and accessible technique that uses commercially available reagents and common cell culture equipment. However, it can be technically challenging, slow, and incompatible with microwell cell culture plates that are widely used for screening and other applications. Here, we describe a novel protocol using medical biopsy punches to transfer patterns into standard 96-well plates via polydimethylsiloxane (PDMS) cutouts. We demonstrate that this method can be used to deposit patterns of poly-D-lysine (PDL) into the microwells of glass-bottom plates. As a proof-of-concept, we show that cultured rodent glial cells preferentially grow and extend processes on the pattern. This method will allow larger scale MCP experiments in which different patterns, proteins, or other factors can be assayed in parallel.•Biopsy punches enable both cutting out small circular stamps and plunging them into tissue culture microwells to transfer proteins.•Compared to standard MCP, this method offers a more rapid workflow to pattern proteins onto substrates, and allows use of microwell plates that permits larger-scale experiments.
Keywords: Cell assay; High-content; High-throughput microwell microcontact printing; Micropatterning.
© 2024 The Authors. Published by Elsevier B.V.