Development of Dual-Nanopore Biosensors for Detection of Intracellular Dopamine and Dopamine Efflux from Single PC12 Cell.
A dual-nanopore biosensor utilizing a DNA aptamer probe to specifically interact with dopamine, enabling detection of intracellular dopamine and dopamine efflux (extracellular dopamine) in a single pheochromocytoma (PC12) cell is reported.
Abstract
Detection of neurotransmitters at the single-cell level is essential for understanding the related biological processes and neurodegenerative diseases. We report a dual-nanopore biosensor utilizing a DNA aptamer probe to specifically interact with dopamine, enabling detection of intracellular dopamine and dopamine efflux (extracellular dopamine) in a single pheochromocytoma (PC12) cell. We demonstrate the ability to form an intrapipette electric circuit with the dual-nanopore configuration, which is crucial to achieving both intracellular and extracellular dopamine detection. The sensor allowed rapid detection of dopamine in 10 min with a limit of detection of 0.4 nM. We show the dual-nanopore biosensor was able to monitor single-cell dopamine concentration change under different stimulations. The developed dual-nanopore biosensor represents a novel strategy for time-dependent monitoring of neuron behavior at the single-cell level and potentially can be extended to other platforms for single-cell analysis.