Chemical Plasma Membrane Perforation Generated by a Microfluidic Probe for Single-Cell Intracellular Protein Delivery.

Abstract

Efficient and convenient delivery of exogenous molecules into cells is important for cell biology research. However, many intracellular delivery methods require carrier-mediated or physical field assistance, complicating the delivery process. Here, a general, simple, and effective method for in situ single-cell intracellular delivery is reported. A solution containing digitonin and cargo is precisely applied to single cells using a microfluidic probe. Digitonin binds to cholesterol in the plasma membrane to induce perforation, and the cargo enters the cell through the pore. By optimizing parameters, propidium iodide (0.67 kDa) and FITC-dextran (10, 40, and 150 kDa) can be successfully introduced into single cells within 3 min while maintaining cell viability. To prove the potential of this method for cell research, we delivered cytochrome C (13 kDa) and cyclophilin A (18 kDa) into cells by this method. The delivered cytochrome C successfully induces cell apoptosis by activating the caspase pathway, and cyclophilin A performs an antioxidant effect in the cells, which may enhance the drug resistance of glioma cells. It is believed that this method will be an attractive tool for single-cell intracellular delivery.