Real-time measurements of cellular oxygen consumption rate (OCR) and extracellular acidification rate (ECAR) were performed simultaneously using a Seahorse Metabolic Flux Analyzer XFp (Agilent Technologies, Santa Clara, CA). hTCEpi cells were seeded in KGM at 30,000 cells per well in Seahorse mini-plates containing 8 wells (Agilent Technologies) and cultured overnight. Media was subsequently removed from each plate and replaced with isotonic KGM (330 mOsM), or KGM supplemented with NaCl to an osmolarity of 450 mOsM and 500 mOsM. Cells were then incubated for 24 hours under isotonic or hyperosmolar conditions. After 24 hours, hyperosmotic media was removed and replaced with Seahorse XF DMEM medium containing 1 mM sodium pyruvate, 2 mM glutamine, 10 mM glucose, and 5 mM HEPES without phenol red (pH 7.4, Agilent Technologies). Cells were incubated in this medium for one hour at 37°C in a standard non-CO2 incubator, after which this medium was replaced with fresh Seahorse XF medium just before analysis. OCR, a marker for mitochondrial respiration, and ECAR, a marker for glycolysis, were analyzed using a Seahorse XFp Cell Mito Stress Test Kit or a Seahorse XFp Real Time ATP Rate Assay (Agilent Technologies). All assays were performed according to manufacturer instructions, as briefly described below. For quantitation of metabolic activities using the Seahorse XFp Cell Mito Stress Test Kit, 10 µM oligomycin was injected to inhibit ATP synthase at 20 minutes, allowing for measurement of mitochondrial respiration associated with cellular ATP production. At 50 minutes, 5 µM carbonyl cyanide 4-(trifluoromethoxy) phenylhydrazone was injected to disrupt the mitochondrial membrane potential by collapsing the proton gradient, allowing for measurement of maximal oxygen consumption because of uninhibited electron flow through the electron transport chain. At 80 minutes, 5 µM rotenone/antimycin A was injected to completely inhibit mitochondrial respiration, allowing for measurement of non-mitochondrial respiration. Measurements were obtained every six to seven minutes for a total of 94 minutes. For the Seahorse XFp Real-Time ATP Rate Assay Kit, only two injections were performed, the first injecting 15 µM oligomycin at 20 minutes and the second injecting 5 µM rotenone/antimycin A at 40 minutes. Similarly, measurements were obtained in real time every six to seven minutes for a total of 74 minutes. Data were analyzed using the manufacturer provided Wave software, version 2.3.0. The ratio for OCR/ECAR was calculated for each experiment. All samples were plated in 6 replicate wells. OCR, ECAR, and ATP levels were all normalized to total cell number using a Celigo imaging cytometer (Nexcelom). Each experiment was repeated a minimum of two additional times.