Single‐Cell Quantification of a Highly Biocompatible Dinuclear Iridium(III) Complex for Photocatalytic Cancer Therapy

Quantifying the content of metal‐based anticancer drugs within single cancer cells remains a challenge. Here, we used single‐cell inductively coupled plasma mass spectrometry to study the uptake and retention of mononuclear (Ir1) and dinuclear (Ir2) IrIII photoredox catalysts. This method allowed ra...

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Veröffentlicht in:	Angewandte Chemie International Edition 2022-06, Vol.61 (23), p.e202202098-n/a
Hauptverfasser:	Fan, Zhongxian, Rong, Yi, Sadhukhan, Tumpa, Liang, Shaoxia, Li, Wenqing, Yuan, Zhanxiang, Zhu, Zilin, Guo, Shunwen, Ji, Shaomin, Wang, Jinquan, Kushwaha, Rajesh, Banerjee, Samya, Raghavachari, Krishnan, Huang, Huaiyi
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Sprache:	eng
Schlagworte:	Antineoplastic drugs Antitumor agents Biocompatibility Cancer Cancer therapies Catalysts Chemotherapy Inductively coupled plasma mass spectrometry Iridium Iridium Complexes Iridium compounds Mass spectrometry Mass spectroscopy NAD Oxidation Photocatalysis Photodynamic Therapy Photooxidation Photoredox catalysis Single-Cell ICP-MS Synergism Toxicity Tumors
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creator	Fan, Zhongxian Rong, Yi Sadhukhan, Tumpa Liang, Shaoxia Li, Wenqing Yuan, Zhanxiang Zhu, Zilin Guo, Shunwen Ji, Shaomin Wang, Jinquan Kushwaha, Rajesh Banerjee, Samya Raghavachari, Krishnan Huang, Huaiyi
description	Quantifying the content of metal‐based anticancer drugs within single cancer cells remains a challenge. Here, we used single‐cell inductively coupled plasma mass spectrometry to study the uptake and retention of mononuclear (Ir1) and dinuclear (Ir2) IrIII photoredox catalysts. This method allowed rapid and precise quantification of the drug in individual cancer cells. Importantly, Ir2 showed a significant synergism but not an additive effect for NAD(P)H photocatalytic oxidation. The lysosome‐targeting Ir2 showed low dark toxicity in vitro and in vivo. Ir2 exhibited high photocatalytic therapeutic efficiency at 525 nm with an excellent photo‐index in vitro and in tumor‐bearing mice model. Interestingly, the photocatalytic anticancer profile of the dinuclear Ir2 was much better than the mononuclear Ir1, indicating for the first time that dinuclear metal‐based photocatalysts can be applied for photocatalytic anticancer treatment. Single‐cell plasma mass spectrometry was applied for the rapid, label‐free quantification of a dinuclear IrIII photocatalyst at the single‐cell level. Ir2 exhibited high cellular uptake and retention efficiency along with long‐wavelength light absorption. In vivo, biocompatible Ir2 showed a lysosome‐targeting multimodal anticancer mechanism of action via its unique photocatalytic oxidation of amino acids and the co‐enzymes NAD(P)H.
doi_str_mv	10.1002/anie.202202098
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Here, we used single‐cell inductively coupled plasma mass spectrometry to study the uptake and retention of mononuclear (Ir1) and dinuclear (Ir2) IrIII photoredox catalysts. This method allowed rapid and precise quantification of the drug in individual cancer cells. Importantly, Ir2 showed a significant synergism but not an additive effect for NAD(P)H photocatalytic oxidation. The lysosome‐targeting Ir2 showed low dark toxicity in vitro and in vivo. Ir2 exhibited high photocatalytic therapeutic efficiency at 525 nm with an excellent photo‐index in vitro and in tumor‐bearing mice model. Interestingly, the photocatalytic anticancer profile of the dinuclear Ir2 was much better than the mononuclear Ir1, indicating for the first time that dinuclear metal‐based photocatalysts can be applied for photocatalytic anticancer treatment. Single‐cell plasma mass spectrometry was applied for the rapid, label‐free quantification of a dinuclear IrIII photocatalyst at the single‐cell level. 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Ir2 exhibited high cellular uptake and retention efficiency along with long‐wavelength light absorption. In vivo, biocompatible Ir2 showed a lysosome‐targeting multimodal anticancer mechanism of action via its unique photocatalytic oxidation of amino acids and the co‐enzymes NAD(P)H.</abstract><cop>Germany</cop><pub>Wiley Subscription Services, Inc</pub><pmid>35258153</pmid><doi>10.1002/anie.202202098</doi><tpages>8</tpages><edition>International ed. in English</edition><orcidid>https://orcid.org/0000-0003-3275-1426</orcidid><orcidid>https://orcid.org/0000-0003-1995-7286</orcidid><orcidid>https://orcid.org/0000-0002-2091-7954</orcidid><orcidid>https://orcid.org/0000-0003-4393-4447</orcidid></addata></record>
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subjects	Antineoplastic drugs Antitumor agents Biocompatibility Cancer Cancer therapies Catalysts Chemotherapy Inductively coupled plasma mass spectrometry Iridium Iridium Complexes Iridium compounds Mass spectrometry Mass spectroscopy NAD Oxidation Photocatalysis Photodynamic Therapy Photooxidation Photoredox catalysis Single-Cell ICP-MS Synergism Toxicity Tumors
title	Single‐Cell Quantification of a Highly Biocompatible Dinuclear Iridium(III) Complex for Photocatalytic Cancer Therapy
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