Abstract
Utilizing the microfluidic single-cell technique enables us to study the inhibition of multidrug resistance due to drug efflux on a single triple-negative breast cancer cell. This method examines drug efflux inhibition on a single cell in a microfluidic chip using a conventional optical detection system constructed from an inverted microscope and a microphotometer. More importantly, the integration of single-cell selection, dye and drug loading, and fluorescence measurement for intracellular drug accumulation is all conducted on a single microfluidic chip. By using a microfluidic chip and the adherent nature of the cancer cell lines, a single breast cancer cell could be selected and retained near the cell retention structure in the chip. This enabled us to detect dye accumulation in the MDR breast cells in the presence of cyclosporine A (CsA). CsA and rhodamine 123 (Rh123) were used as the P-glycoprotein (P-gp) inhibitor and fluorescent dye, respectively. Furthermore, Paclitaxel, a commonly known chemotherapeutic used in breast cancer patients, was administered in the presence of both reagents. During the entirety of the experiment fluorescence measurement was used to monitor the fluctuating levels of intracellular Rh123 levels, and an optical imaging system was used to monitor the shape and size of the cell. The results showed that the Rh123 fluorescence signal in a single-cell increased dramatically over its same-cell control due to the competitive inhibition of paclitaxel and the non-competitive inhibition subjected by CsA.
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