A novel radiolytic rotenone derivative, rotenoisin A, displays potent anticarcinogenic activity in breast cancer cells

Chemotherapy for cancer treatment has therapeutic limitations, such as drug resistance, excessive toxic effects and undesirable adverse effects. Therefore, efforts to improve the safety and efficacy of chemotherapeutic agents are essential. Ionizing radiation can improve physiological and pharmacolo...

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Veröffentlicht in:	Journal of radiation research 2021-03, Vol.62 (2), p.249-258
Hauptverfasser:	Bak, Dong-Ho, Kang, Seong Hee, Park, Chul-Hong, Chung, Byung Yeoup, Bai, Hyoung-Woo
Format:	Artikel
Sprache:	eng
Schlagworte:	Apoptosis Breast cancer Cancer Cancer cells Chemotherapy DNA damage Drug resistance Fundamental Radiation Science Health aspects Protein kinases Proteins Radiation
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container_title	Journal of radiation research
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creator	Bak, Dong-Ho Kang, Seong Hee Park, Chul-Hong Chung, Byung Yeoup Bai, Hyoung-Woo
description	Chemotherapy for cancer treatment has therapeutic limitations, such as drug resistance, excessive toxic effects and undesirable adverse effects. Therefore, efforts to improve the safety and efficacy of chemotherapeutic agents are essential. Ionizing radiation can improve physiological and pharmacological properties by transforming structural modifications of the drug. In this study, in order to reduce the adverse effects of rotenone and increase anticancer activity, a new radiolytic rotenone derivative called rotenoisin A was generated through radiolytic transformation. Our findings showed that rotenoisin A inhibited the proliferation of breast cancer cells and increased the rate of apoptosis, whereas it had no inhibitory effect on primary epidermal keratinocytes compared with rotenone. Moreover, rotenoisin A-induced DNA damage by increasing reactive oxygen species (ROS) accumulation. It was also confirmed not only to alter the composition ratio of mitochondrial proteins, but also to result in structural and functional changes. The anticancer effect and molecular signalling mechanisms of rotenoisin A were consistent with those of rotenone, as previously reported. Our study suggests that radiolytic transformation of highly toxic compounds may be an alternative strategy for maintaining anticancer effects and reducing the toxicity of the parent compound.
doi_str_mv	10.1093/jrr/rrab005
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subjects	Apoptosis Breast cancer Cancer Cancer cells Chemotherapy DNA damage Drug resistance Fundamental Radiation Science Health aspects Protein kinases Proteins Radiation
title	A novel radiolytic rotenone derivative, rotenoisin A, displays potent anticarcinogenic activity in breast cancer cells
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