Electrochemical Nanopipette Sensor for In Vitro/In Vivo Detection of Cu2+ Ions
In vitro/in vivo detection of copper ions is a challenging task but one which is important in the development of new approaches to the diagnosis and treatment of cancer and hereditary diseases such as Alzheimer’s, Wilson’s, etc. In this paper, we present a nanopipette sensor capable of measuring Cu2...
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| Published in | Analytical chemistry (Washington) Vol. 96; no. 1; pp. 127 - 136 |
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| Main Authors | , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Washington
American Chemical Society
09.01.2024
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| Subjects | |
| Online Access | Get full text |
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| Abstract | In vitro/in vivo detection of copper ions is a challenging task but one which is important in the development of new approaches to the diagnosis and treatment of cancer and hereditary diseases such as Alzheimer’s, Wilson’s, etc. In this paper, we present a nanopipette sensor capable of measuring Cu2+ ions with a linear range from 0.1 to 10 μM in vitro and in vivo. Using the gold-modified nanopipette sensor with a copper chelating ligand, we evaluated the accumulation ability of the liposomal form of an anticancer Cu-containing complex at three levels of biological organization. First, we detected Cu2+ ions in a single cell model of human breast adenocarcinoma MCF-7 and in murine melanoma B16 cells. The insertion of the nanoelectrode did not result in leakage of the cell membrane. We then evaluated the distribution of the Cu-complex in MCF-7 tumor spheroids and found that the diffusion-limited accumulation was a function of the depth, typical for 3D culture. Finally, we demonstrated the use of the sensor for Cu2+ ion detection in the brain of an APP/PS1 transgenic mouse model of Alzheimer’s disease and tumor-bearing mice in response to injection (2 mg kg–1) of the liposomal form of the anticancer Cu-containing complex. Enhanced stability and selectivity, as well as distinct copper oxidation peaks, confirmed that the developed sensor is a promising tool for testing various types of biological systems. In summary, this research has demonstrated a minimally invasive electrochemical technique with high temporal resolution that can be used for the study of metabolism of copper or copper-based drugs in vitro and in vivo. |
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| AbstractList | In vitro/in vivo detection of copper ions is a challenging task but one which is important in the development of new approaches to the diagnosis and treatment of cancer and hereditary diseases such as Alzheimer's, Wilson's, etc. In this paper, we present a nanopipette sensor capable of measuring Cu2+ ions with a linear range from 0.1 to 10 μM in vitro and in vivo. Using the gold-modified nanopipette sensor with a copper chelating ligand, we evaluated the accumulation ability of the liposomal form of an anticancer Cu-containing complex at three levels of biological organization. First, we detected Cu2+ ions in a single cell model of human breast adenocarcinoma MCF-7 and in murine melanoma B16 cells. The insertion of the nanoelectrode did not result in leakage of the cell membrane. We then evaluated the distribution of the Cu-complex in MCF-7 tumor spheroids and found that the diffusion-limited accumulation was a function of the depth, typical for 3D culture. Finally, we demonstrated the use of the sensor for Cu2+ ion detection in the brain of an APP/PS1 transgenic mouse model of Alzheimer's disease and tumor-bearing mice in response to injection (2 mg kg-1) of the liposomal form of the anticancer Cu-containing complex. Enhanced stability and selectivity, as well as distinct copper oxidation peaks, confirmed that the developed sensor is a promising tool for testing various types of biological systems. In summary, this research has demonstrated a minimally invasive electrochemical technique with high temporal resolution that can be used for the study of metabolism of copper or copper-based drugs in vitro and in vivo.In vitro/in vivo detection of copper ions is a challenging task but one which is important in the development of new approaches to the diagnosis and treatment of cancer and hereditary diseases such as Alzheimer's, Wilson's, etc. In this paper, we present a nanopipette sensor capable of measuring Cu2+ ions with a linear range from 0.1 to 10 μM in vitro and in vivo. Using the gold-modified nanopipette sensor with a copper chelating ligand, we evaluated the accumulation ability of the liposomal form of an anticancer Cu-containing complex at three levels of biological organization. First, we detected Cu2+ ions in a single cell model of human breast adenocarcinoma MCF-7 and in murine melanoma B16 cells. The insertion of the nanoelectrode did not result in leakage of the cell membrane. We then evaluated the distribution of the Cu-complex in MCF-7 tumor spheroids and found that the diffusion-limited accumulation was a function of the depth, typical for 3D culture. Finally, we demonstrated the use of the sensor for Cu2+ ion detection in the brain of an APP/PS1 transgenic mouse model of Alzheimer's disease and tumor-bearing mice in response to injection (2 mg kg-1) of the liposomal form of the anticancer Cu-containing complex. Enhanced stability and selectivity, as well as distinct copper oxidation peaks, confirmed that the developed sensor is a promising tool for testing various types of biological systems. In summary, this research has demonstrated a minimally invasive electrochemical technique with high temporal resolution that can be used for the study of metabolism of copper or copper-based drugs in vitro and in vivo. In vitro/in vivo detection of copper ions is a challenging task but one which is important in the development of new approaches to the diagnosis and treatment of cancer and hereditary diseases such as Alzheimer's, Wilson's, etc. In this paper, we present a nanopipette sensor capable of measuring Cu2+ ions with a linear range from 0.1 to 10 μM in vitro and in vivo. Using the gold-modified nanopipette sensor with a copper chelating ligand, we evaluated the accumulation ability of the liposomal form of an anticancer Cu-containing complex at three levels of biological organization. First, we detected Cu2+ ions in a single cell model of human breast adenocarcinoma MCF-7 and in murine melanoma B16 cells. The insertion of the nanoelectrode did not result in leakage of the cell membrane. We then evaluated the distribution of the Cu-complex in MCF-7 tumor spheroids and found that the diffusion-limited accumulation was a function of the depth, typical for 3D culture. Finally, we demonstrated the use of the sensor for Cu2+ ion detection in the brain of an APP/PS1 transgenic mouse model of Alzheimer's disease and tumor-bearing mice in response to injection (2 mg kg–1) of the liposomal form of the anticancer Cu-containing complex. Enhanced stability and selectivity, as well as distinct copper oxidation peaks, confirmed that the developed sensor is a promising tool for testing various types of biological systems. In summary, this research has demonstrated a minimally invasive electrochemical technique with high temporal resolution that can be used for the study of metabolism of copper or copper-based drugs in vitro and in vivo. |
| Author | Korchev, Yuri E. Timoshenko, Roman V. Takahashi, Yasufumi Iakimova, Tamara M. Edwards, Christopher R. W. Shashkovskaya, Vera S. Akasov, Roman A. Abakumova, Tatiana O. Makarov, Alexander A. Krasnovskaya, Olga O. Garanina, Anastasiia S. Erofeev, Alexander S. Gorelkin, Petr V. Khochenkov, Dmitry A. Mitkevich, Vladimir A. Klyachko, Natalia L. Chaprov, Kirill D. Vaneev, Alexander N. |
| AuthorAffiliation | Kanazawa University Federal Scientific Research Center “Crystallography and Photonics” of the Russian Academy of Sciences N.N. Blokhin National Medical Research Center of Oncology Department of Electronics, Graduate School of Engineering Department of Medicine Engelhardt Institute of Molecular Biology Nagoya University Nano Life Science Institute (WPI-NanoLSI) Chemistry Department Togliatti State University Russian Academy of Sciences Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry of the Russian Academy of Sciences Sechenov First Moscow State Medical University |
| AuthorAffiliation_xml | – name: Togliatti State University – name: Sechenov First Moscow State Medical University – name: Russian Academy of Sciences – name: Department of Medicine – name: Nagoya University – name: Department of Electronics, Graduate School of Engineering – name: Engelhardt Institute of Molecular Biology – name: Kanazawa University – name: N.N. Blokhin National Medical Research Center of Oncology – name: Chemistry Department – name: Institute of Physiologically Active Compounds at Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry of the Russian Academy of Sciences – name: Nano Life Science Institute (WPI-NanoLSI) – name: Federal Scientific Research Center “Crystallography and Photonics” of the Russian Academy of Sciences |
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| DOI | 10.1021/acs.analchem.3c03337 |
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| SubjectTerms | Accumulation Adenocarcinoma Alzheimer's disease Cancer Cell culture Cell membranes Chelation Copper Electrochemistry Hereditary diseases In vivo methods and tests Ion detectors Ions Melanoma Neurodegenerative diseases Oxidation Presenilin 1 Sensors Spheroids Temporal resolution Transgenic mice Tumors |
| Title | Electrochemical Nanopipette Sensor for In Vitro/In Vivo Detection of Cu2+ Ions |
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