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Real-Time Wireless Monitoring of Cell Proliferation and Detachment Based on pH-Responsive Conductive Polymer Dots

Nguyen Ngan Giang, Seul Gi Kim, Insik In, Sung Young Park

2021Analytical Chemistry11 citationsDOI

Abstract

In situ wireless monitoring for cell proliferation and detachment kinetics was conducted using pH-responsive zwitterionic polymer dots (Z-PDs), based on changes in electrochemical signals derived from Z-PD-coated substrates via the interaction of charges transferred between Z-PDs and cells. Z-PD-coated substrates were found to be a potent means to monitor and manipulate cell adhesion and detachment because of their high sensitivity over a wide range of pH conditions, and modification of the coated substrates was confirmed using a wireless system. At neutral pH, Z-PD-coated wireless sensors exhibited π–π stacking involving aromatic rings with hydrophobic interactions, thereby promoting cell proliferation; consequently, an increase in the measured resistance was observed. In contrast, Z-PD-coated substrates triggered by acidic and basic conditions promoted cell detachment, which induced an increase in the resistance compared with Z-PD substrates at pH 6.8, as a result of charges transferred to support Z-PD internalization through cell membranes after detachment. Therefore, as a wireless biosensor with excellent pH responsiveness that facilitates cell proliferation and detachment and whose electrochemical signals could be additionally acquired via a smartphone, Z-PD biosensors demonstrated a more favorable approach for monitoring cell–surface interactions than conventional optically based methods.

Topics & Concepts

ChemistryBiosensorStackingMembraneAdhesionElectrochemistryPolymerNanotechnologyCell growthElectrodeBiophysicsBiochemistryOrganic chemistryMaterials sciencePhysical chemistryBiologyPolymer Surface Interaction StudiesConducting polymers and applicationsLuminescence and Fluorescent Materials
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