Abstract
In many biological systems, pH can be used as a parameter to understand and study cell dynamics. However, measuring pH in live cell culture is limited by the sensor ion specificity, proximity to the cell surface, and scalability. Commercially available pH sensors are difficult to integrate into a small-scale cell culture system due to their size and are not cost-effective for disposable use. We made PHAIR—a new pH sensor that uses a micro-wire format to measure pH in vitro human airway cell culture. Tungsten micro-wires were used as the working electrodes, and silver micro-wires with a silver/silver chloride coating were used as a pseudo reference electrode. pH sensitivity, in a wide and narrow range, and stability of these sensors were tested in common standard buffer solutions as well as in culture media of human airway epithelial cells grown at the air–liquid interface in a 24 well cell culture plate. When measuring the pH of cells grown under basal and challenge conditions using PHAIR, cell viability and cytokine responses were not affected. Our results confirm that micro-wire-based sensors have the capacity for miniaturization and detection of diverse ions while maintaining sensitivity. This suggests the broad application of PHAIR in various biological experimental settings.
Highlights
Changes in extracellular or intracellular pH may accompany cellular growth, metabolism, signaling, or ion transport[1,2]
A particular challenge exists for pH measurements of airway epithelial cells grown under air–liquid interface culture conditions on Transwell inserts as there is a small growth surface area contributing to a low volume and depth of airway surface lining (ASL)
We hypothesized that a tungsten wire-based pH sensor system satisfies design constraints for pH measurements in ASL fluid from human airway epithelial cells cultured under air–liquid interface conditions
Summary
Changes in extracellular or intracellular pH may accompany cellular growth, metabolism, signaling, or ion transport[1,2].
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