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Changes in sub-cellular pH play a key role in metabolism, cell growth, membrane transport, and can also be exploited to control cargo release from therapeutic delivery systems. Most methods to measure pH rely on intensity changes of pH sensitive fluorophores, however these measurements are hampered by high uncertainty in the inferred pH and the need for multiple fluorophores. To address this, we have developed a method to accurately quantify sub-cellular pH in individual vesicles using fluorescent lifetime imaging microscopy (pHLIM). pHLIM exploits the linear pH dependant lifetime of the fluorescent protein mApple and uses deep learning models to automatically identify and measure the pH of subcellular compartments. We have engineered mApple fusion proteins to measure the pH of the cytosol, endosomes, lysosomes and demonstrated the utility of pHLIM by measuring pH changes induced by drugs (bafilomycin A1) and polyethylenimine (a common transfection reagent). pHLIM is a simple and quantitative method to measure sub-cellular pH that has the potential to help with the design of the next generation of controlled drug release systems and to understand drug action and disease progression. |
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