Parallel singleâcell analysis microfluidic platform
2011
van den Brink, Floris T. G. | Gool, Elmar | Frimat, JeanâPhilippe | Bomer, Johan | van den Berg, Albert | Le Gac, Séverine
We report a PDMS microfluidic platform for parallel singleâcell analysis (PaSCAl) as a powerful tool to decipher the heterogeneity found in cell populations. Cells are trapped individually in dedicated pockets, and thereafter, a number of invasive or nonâinvasive analysis schemes are performed. First, we report singleâcell trapping in a fast (2–5âmin) and reproducible manner with a singleâcell capture yield of 85% using two cell lines (P3x63Ag8 and MCFâ7), employing a protocol which is scalable and easily amenable to automation. Following this, a mixed population of P3x63Ag8 and MCFâ7cells is stained in situ using the nucleic acid probe (Hoechst) and a phycoerythrinâlabeled monoclonal antibody directed at EpCAM present on the surface of the breast cancer cells MCFâ7 and absent on the myeloma cells P3x63Ag8 to illustrate the potential of the device to analyze cell population heterogeneity. Next, cells are porated in situ using chemicals in a reversible (digitonin) or irreversible way (lithium dodecyl sulfate). This is visualized by the transportation of fluorescent dyes through the membrane (propidium iodide and calcein). Finally, an electrical protocol is developed for combined cell permeabilization and electroosmotic flow (EOF)âbased extraction of the cell content. It is validated here using calceinâloaded cells and visualized through the progressive recovery of calcein in the side channels, indicating successful retrieval of individual cell content.
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