Demonstrating drug treatment efficacies by monitoring superoxide dynamics in human lung cancer cells with time‐lapse fluorescence microscopy

Metformin hydrochloride, an antihyperglycemic agent, and sulindac, a nonsteroidal anti‐inflammatory drug, are FDA‐approved drugs known to exert anticancer effects. Previous studies demonstrated sulindac and metformin's anticancer properties through mitochondrial dysfunction and inhibition of mi...

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Veröffentlicht in:	Journal of biophotonics 2024-02, Vol.17 (2), p.e202300331-n/a
Hauptverfasser:	Konjalwar, Shalaka, Ceyhan, Busenur, Rivera, Oscar, Nategh, Parisa, Neghabi, Mehrnoosh, Pavlovic, Mirjana, Allani, Shailaja, Ranji, Mahsa
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Sprache:	eng
Schlagworte:	Anticancer properties Cell death Cell Line, Tumor Drugs Electron transport Electron transport chain Fluorescence Fluorescence microscopy Humans Imaging techniques Inflammation Lung cancer Lung Neoplasms - drug therapy Metformin Metformin - pharmacology Metformin - therapeutic use Microscopy Microscopy, Fluorescence Mitochondria MitoSOX Red oxidative stress Pharmaceutical Preparations Sulindac Sulindac - pharmacology Sulindac - therapeutic use Superoxide Superoxides Time-Lapse Imaging
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creator	Konjalwar, Shalaka Ceyhan, Busenur Rivera, Oscar Nategh, Parisa Neghabi, Mehrnoosh Pavlovic, Mirjana Allani, Shailaja Ranji, Mahsa
description	Metformin hydrochloride, an antihyperglycemic agent, and sulindac, a nonsteroidal anti‐inflammatory drug, are FDA‐approved drugs known to exert anticancer effects. Previous studies demonstrated sulindac and metformin's anticancer properties through mitochondrial dysfunction and inhibition of mitochondrial electron transport chain complex I and key signaling pathways. In this study, various drugs were administered to A549 lung cancer cells, and results revealed that a combination of sulindac and metformin enhanced cell death compared to the administration of the drugs separately. To measure superoxide production over time, we employed a time‐lapse fluorescence imaging technique using mitochondrial‐targeted hydroethidine. Fluorescence microscopy data showed the most significant increases in superoxide production in the combination treatment of metformin and sulindac. Results showed significant differences between the combined drug treatment and control groups and between the positive control and control groups. This approach can be utilized to quantify the anticancer efficacy of drugs, creating possibilities for additional therapeutic options. Data obtained through time‐lapse fluorescence microscopy demonstrates that a combination treatment of two FDA‐approved drugs, sulindac, and metformin, shows promise in the treatment of lung cancer.
doi_str_mv	10.1002/jbio.202300331
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Previous studies demonstrated sulindac and metformin's anticancer properties through mitochondrial dysfunction and inhibition of mitochondrial electron transport chain complex I and key signaling pathways. In this study, various drugs were administered to A549 lung cancer cells, and results revealed that a combination of sulindac and metformin enhanced cell death compared to the administration of the drugs separately. To measure superoxide production over time, we employed a time‐lapse fluorescence imaging technique using mitochondrial‐targeted hydroethidine. Fluorescence microscopy data showed the most significant increases in superoxide production in the combination treatment of metformin and sulindac. Results showed significant differences between the combined drug treatment and control groups and between the positive control and control groups. This approach can be utilized to quantify the anticancer efficacy of drugs, creating possibilities for additional therapeutic options. 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Previous studies demonstrated sulindac and metformin's anticancer properties through mitochondrial dysfunction and inhibition of mitochondrial electron transport chain complex I and key signaling pathways. In this study, various drugs were administered to A549 lung cancer cells, and results revealed that a combination of sulindac and metformin enhanced cell death compared to the administration of the drugs separately. To measure superoxide production over time, we employed a time‐lapse fluorescence imaging technique using mitochondrial‐targeted hydroethidine. Fluorescence microscopy data showed the most significant increases in superoxide production in the combination treatment of metformin and sulindac. Results showed significant differences between the combined drug treatment and control groups and between the positive control and control groups. This approach can be utilized to quantify the anticancer efficacy of drugs, creating possibilities for additional therapeutic options. 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subjects	Anticancer properties Cell death Cell Line, Tumor Drugs Electron transport Electron transport chain Fluorescence Fluorescence microscopy Humans Imaging techniques Inflammation Lung cancer Lung Neoplasms - drug therapy Metformin Metformin - pharmacology Metformin - therapeutic use Microscopy Microscopy, Fluorescence Mitochondria MitoSOX Red oxidative stress Pharmaceutical Preparations Sulindac Sulindac - pharmacology Sulindac - therapeutic use Superoxide Superoxides Time-Lapse Imaging
title	Demonstrating drug treatment efficacies by monitoring superoxide dynamics in human lung cancer cells with time‐lapse fluorescence microscopy
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