Doxorubicin causes ferroptosis and cardiotoxicity by intercalating into mitochondrial DNA and disrupting Alas1-dependent heme synthesis

Ko Abe; Masataka Ikeda; Tomomi Ide; Tomonori Tadokoro; Hiroko Deguchi Miyamoto; Shun Furusawa; Yoshitomo Tsutsui; Ryo Miyake; Kosei Ishimaru; Masatsugu Watanabe; Shouji Matsushima; Tomoko Koumura; Ken Ichi Yamada; Hirotaka Imai; Hiroyuki Tsutsui

doi:10.1126/scisignal.abn8017

Doxorubicin causes ferroptosis and cardiotoxicity by intercalating into mitochondrial DNA and disrupting Alas1-dependent heme synthesis

Ko Abe, Masataka Ikeda, Tomomi Ide, Tomonori Tadokoro, Hiroko Deguchi Miyamoto, Shun Furusawa, Yoshitomo Tsutsui, Ryo Miyake, Kosei Ishimaru, Masatsugu Watanabe, Shouji Matsushima, Tomoko Koumura, Ken Ichi Yamada, Hirotaka Imai, Hiroyuki Tsutsui

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

1 被引用数 (Scopus)

抄録

Clinical use of doxorubicin (DOX) is limited because of its cardiotoxicity, referred to as DOX-induced cardiomyopathy (DIC). Mitochondria-dependent ferroptosis, which is triggered by iron overload and excessive lipid peroxidation, plays a pivotal role in the progression of DIC. Here, we showed that DOX accumulated in mitochondria by intercalating into mitochondrial DNA (mtDNA), inducing ferroptosis in an mtDNA content-dependent manner. In addition, DOX disrupted heme synthesis by decreasing the abundance of 5'-aminolevulinate synthase 1 (Alas1), the rate-limiting enzyme in this process, thereby impairing iron utilization, resulting in iron overload and ferroptosis in mitochondria in cultured cardiomyocytes. Alas1 overexpression prevented this outcome. Administration of 5-aminolevulinic acid (5-ALA), the product of Alas1, to cultured cardiomyocytes and mice suppressed iron overload and lipid peroxidation, thereby preventing DOX-induced ferroptosis and DIC. Our findings reveal that the accumulation of DOX and iron in mitochondria cooperatively induces ferroptosis in cardiomyocytes and suggest that 5-ALA can be used as a potential therapeutic agent for DIC.

本文言語	英語
論文番号	eabn8017
ジャーナル	Science Signaling
巻	15
号	758
DOI	https://doi.org/10.1126/scisignal.abn8017
出版ステータス	出版済み - 11月 1 2022

!!!All Science Journal Classification (ASJC) codes

生化学
分子生物学
細胞生物学

文献へのアクセス

10.1126/scisignal.abn8017

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引用スタイル

Abe, K., Ikeda, M., Ide, T., Tadokoro, T., Miyamoto, H. D., Furusawa, S., Tsutsui, Y., Miyake, R., Ishimaru, K., Watanabe, M., Matsushima, S., Koumura, T., Yamada, K. I., Imai, H., & Tsutsui, H. (2022). Doxorubicin causes ferroptosis and cardiotoxicity by intercalating into mitochondrial DNA and disrupting Alas1-dependent heme synthesis. Science Signaling, 15(758), [eabn8017]. https://doi.org/10.1126/scisignal.abn8017

Abe, K, Ikeda, M , Ide, T, Tadokoro, T, Miyamoto, HD, Furusawa, S, Tsutsui, Y, Miyake, R, Ishimaru, K, Watanabe, M, Matsushima, S, Koumura, T, Yamada, KI, Imai, H & Tsutsui, H 2022, 'Doxorubicin causes ferroptosis and cardiotoxicity by intercalating into mitochondrial DNA and disrupting Alas1-dependent heme synthesis', Science Signaling, vol. 15, no. 758, eabn8017. https://doi.org/10.1126/scisignal.abn8017

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title = "Doxorubicin causes ferroptosis and cardiotoxicity by intercalating into mitochondrial DNA and disrupting Alas1-dependent heme synthesis",

abstract = "Clinical use of doxorubicin (DOX) is limited because of its cardiotoxicity, referred to as DOX-induced cardiomyopathy (DIC). Mitochondria-dependent ferroptosis, which is triggered by iron overload and excessive lipid peroxidation, plays a pivotal role in the progression of DIC. Here, we showed that DOX accumulated in mitochondria by intercalating into mitochondrial DNA (mtDNA), inducing ferroptosis in an mtDNA content-dependent manner. In addition, DOX disrupted heme synthesis by decreasing the abundance of 5'-aminolevulinate synthase 1 (Alas1), the rate-limiting enzyme in this process, thereby impairing iron utilization, resulting in iron overload and ferroptosis in mitochondria in cultured cardiomyocytes. Alas1 overexpression prevented this outcome. Administration of 5-aminolevulinic acid (5-ALA), the product of Alas1, to cultured cardiomyocytes and mice suppressed iron overload and lipid peroxidation, thereby preventing DOX-induced ferroptosis and DIC. Our findings reveal that the accumulation of DOX and iron in mitochondria cooperatively induces ferroptosis in cardiomyocytes and suggest that 5-ALA can be used as a potential therapeutic agent for DIC.",

author = "Ko Abe and Masataka Ikeda and Tomomi Ide and Tomonori Tadokoro and Miyamoto, {Hiroko Deguchi} and Shun Furusawa and Yoshitomo Tsutsui and Ryo Miyake and Kosei Ishimaru and Masatsugu Watanabe and Shouji Matsushima and Tomoko Koumura and Yamada, {Ken Ichi} and Hirotaka Imai and Hiroyuki Tsutsui",

note = "Funding Information: Acknowledgments:W ethankA.Suomalaine(UniversityofHelsinki)forprovidingTwnkTg mice.W ealsothankM.SatoandA.Hanadaforexcellenttechnicalassistance.Funding:This workwassupportedbytheJapanSocietyforthePromotionofScience(JSPS)KAKENHI(grant numbers16H07049,18K15892,and21K16090toM.I.and17K09582and20K08426toT .I.), the UeharaMemorialFoundation(toM.I.),theJapanFoundationforAppliedEnzymology(VBIC: VascularBiologyofInnovation)(toM.I.),theMSDLifeScienceFoundation,thePublicInterest IncorporatedFoundation(toM.I.),NovartisPharmaGrantsforBasicResearch2020(toM.I.), KowaLifeScienceFoundation(toM.I.),CenterforClinicalandTr ansla tionalResearchofKyushu UniversityHospital(toT .I.), andAMED(grantnumber20ek0109339h0003toH.T .). Author contributions:K.A.,M.I.,T .T ., H.D.M.,S.F ., Y .T ., R.M.,K.I.,andM.W .performedtheexperiments. K.A.,M.I.,T .I., S.M.,andH.T .interpretedandanalyzeddatafromtheexperiments.K.A.,M.I.,and T .I. designedtheexperimentalprotocols.K.A.,M.I.,andT .I. wrotethemanuscriptandprepared thefigures.M.I.andT .I. conceivedtheproject.T .K., K.-i.Y ., andH.I.criticallycommentedand advisedontheproject.H.T .approvedandsupervisedtheproject.Competinginterests:T .I. received research funding from SBI Pharmaceuticals. H.T . received remuneration from AstraZeneca,OnoPharmaceutical,OtsukaPharmaceuticalCo.Ltd.,DaiichiSankyoCo.Ltd., MitsubishiTanabePharmaCorporation,T eijin PharmaLtd.,NipponBoehringerIngelheimCo. Ltd.,NovartisPharma,BayerYakuhinLtd.,PfizerJapanInc.,Bristol-MyersSquibbCompany,and Kowa Pharmaceutical Co. Ltd. H.T . received the manuscript fee from Nippon Rinsho. H.T . received research funding from Mitsubishi Tanabe Pharma Corporation, Nippon Boehringer IngelheimCo.Ltd.,DaiichiSankyoCo.Ltd.,IQVIAServicesJapan,OmronHealthcare,MEDINET Co.Ltd.,andMedicalInnova tion Kyushu.H.T .endowedthedepartmentwithfundsfrom Actelion Pharmaceuticals Japan. A patent pertaining to the results presented in this paper is pending(patentno.PCT/JP2022/11540;theinventorsonthepatentareM.I.,T .I., H.T ., andK.A.). Allotherauthorsdeclarethattheyhavenocompetinginterests.Dataandmaterials availability:Alldataneededtoevaluatetheconclusionsinthepaperarepresentinthepaper ortheSupplementaryMaterials.Theadenovirusesandadenoviralplasmidsareavailablefrom MasatakaIkedaunderamaterialtransferagreementwithKyushuUniversity,Japan. Funding Information: We thank A. Suomalaine (University of Helsinki) for providing Twnk Tg mice. We also thank M. Sato and A. Hanada for excellent technical assistance. This work was supported by the Japan Society for the Promotion of Science (JSPS) KAKENHI (grant numbers 16H07049, 18K15892, and 21K16090 to M.I. and 17K09582 and 20K08426 to T.I.), the Uehara Memorial Foundation (to M.I.), the Japan Foundation for Applied Enzymology (VBIC: Vascular Biology of Innovation) (to M.I.), the MSD Life Science Foundation, the Public Interest Incorporated Foundation (to M.I.), Novartis Pharma Grants for Basic Research 2020 (to M.I.), Kowa Life Science Foundation (to M.I.), Center for Clinical and Translational Research of Kyushu University Hospital (to T.I.), and AMED (grant number 20ek0109339h0003 to H.T.). Publisher Copyright: Copyright {\textcopyright} 2022 The Authors, some rights reserved.",

year = "2022",

month = nov,

day = "1",

doi = "10.1126/scisignal.abn8017",

language = "English",

volume = "15",

journal = "Science's STKE : signal transduction knowledge environment",

issn = "1937-9145",

publisher = "American Association for the Advancement of Science",

number = "758",

}

TY - JOUR

T1 - Doxorubicin causes ferroptosis and cardiotoxicity by intercalating into mitochondrial DNA and disrupting Alas1-dependent heme synthesis

AU - Abe, Ko

AU - Ikeda, Masataka

AU - Ide, Tomomi

AU - Tadokoro, Tomonori

AU - Miyamoto, Hiroko Deguchi

AU - Furusawa, Shun

AU - Tsutsui, Yoshitomo

AU - Miyake, Ryo

AU - Ishimaru, Kosei

AU - Watanabe, Masatsugu

AU - Matsushima, Shouji

AU - Koumura, Tomoko

AU - Yamada, Ken Ichi

AU - Imai, Hirotaka

AU - Tsutsui, Hiroyuki

N1 - Funding Information: Acknowledgments:W ethankA.Suomalaine(UniversityofHelsinki)forprovidingTwnkTg mice.W ealsothankM.SatoandA.Hanadaforexcellenttechnicalassistance.Funding:This workwassupportedbytheJapanSocietyforthePromotionofScience(JSPS)KAKENHI(grant numbers16H07049,18K15892,and21K16090toM.I.and17K09582and20K08426toT .I.), the UeharaMemorialFoundation(toM.I.),theJapanFoundationforAppliedEnzymology(VBIC: VascularBiologyofInnovation)(toM.I.),theMSDLifeScienceFoundation,thePublicInterest IncorporatedFoundation(toM.I.),NovartisPharmaGrantsforBasicResearch2020(toM.I.), KowaLifeScienceFoundation(toM.I.),CenterforClinicalandTr ansla tionalResearchofKyushu UniversityHospital(toT .I.), andAMED(grantnumber20ek0109339h0003toH.T .). Author contributions:K.A.,M.I.,T .T ., H.D.M.,S.F ., Y .T ., R.M.,K.I.,andM.W .performedtheexperiments. K.A.,M.I.,T .I., S.M.,andH.T .interpretedandanalyzeddatafromtheexperiments.K.A.,M.I.,and T .I. designedtheexperimentalprotocols.K.A.,M.I.,andT .I. wrotethemanuscriptandprepared thefigures.M.I.andT .I. conceivedtheproject.T .K., K.-i.Y ., andH.I.criticallycommentedand advisedontheproject.H.T .approvedandsupervisedtheproject.Competinginterests:T .I. received research funding from SBI Pharmaceuticals. H.T . received remuneration from AstraZeneca,OnoPharmaceutical,OtsukaPharmaceuticalCo.Ltd.,DaiichiSankyoCo.Ltd., MitsubishiTanabePharmaCorporation,T eijin PharmaLtd.,NipponBoehringerIngelheimCo. Ltd.,NovartisPharma,BayerYakuhinLtd.,PfizerJapanInc.,Bristol-MyersSquibbCompany,and Kowa Pharmaceutical Co. Ltd. H.T . received the manuscript fee from Nippon Rinsho. H.T . received research funding from Mitsubishi Tanabe Pharma Corporation, Nippon Boehringer IngelheimCo.Ltd.,DaiichiSankyoCo.Ltd.,IQVIAServicesJapan,OmronHealthcare,MEDINET Co.Ltd.,andMedicalInnova tion Kyushu.H.T .endowedthedepartmentwithfundsfrom Actelion Pharmaceuticals Japan. A patent pertaining to the results presented in this paper is pending(patentno.PCT/JP2022/11540;theinventorsonthepatentareM.I.,T .I., H.T ., andK.A.). Allotherauthorsdeclarethattheyhavenocompetinginterests.Dataandmaterials availability:Alldataneededtoevaluatetheconclusionsinthepaperarepresentinthepaper ortheSupplementaryMaterials.Theadenovirusesandadenoviralplasmidsareavailablefrom MasatakaIkedaunderamaterialtransferagreementwithKyushuUniversity,Japan. Funding Information: We thank A. Suomalaine (University of Helsinki) for providing Twnk Tg mice. We also thank M. Sato and A. Hanada for excellent technical assistance. This work was supported by the Japan Society for the Promotion of Science (JSPS) KAKENHI (grant numbers 16H07049, 18K15892, and 21K16090 to M.I. and 17K09582 and 20K08426 to T.I.), the Uehara Memorial Foundation (to M.I.), the Japan Foundation for Applied Enzymology (VBIC: Vascular Biology of Innovation) (to M.I.), the MSD Life Science Foundation, the Public Interest Incorporated Foundation (to M.I.), Novartis Pharma Grants for Basic Research 2020 (to M.I.), Kowa Life Science Foundation (to M.I.), Center for Clinical and Translational Research of Kyushu University Hospital (to T.I.), and AMED (grant number 20ek0109339h0003 to H.T.). Publisher Copyright: Copyright © 2022 The Authors, some rights reserved.

PY - 2022/11/1

Y1 - 2022/11/1

N2 - Clinical use of doxorubicin (DOX) is limited because of its cardiotoxicity, referred to as DOX-induced cardiomyopathy (DIC). Mitochondria-dependent ferroptosis, which is triggered by iron overload and excessive lipid peroxidation, plays a pivotal role in the progression of DIC. Here, we showed that DOX accumulated in mitochondria by intercalating into mitochondrial DNA (mtDNA), inducing ferroptosis in an mtDNA content-dependent manner. In addition, DOX disrupted heme synthesis by decreasing the abundance of 5'-aminolevulinate synthase 1 (Alas1), the rate-limiting enzyme in this process, thereby impairing iron utilization, resulting in iron overload and ferroptosis in mitochondria in cultured cardiomyocytes. Alas1 overexpression prevented this outcome. Administration of 5-aminolevulinic acid (5-ALA), the product of Alas1, to cultured cardiomyocytes and mice suppressed iron overload and lipid peroxidation, thereby preventing DOX-induced ferroptosis and DIC. Our findings reveal that the accumulation of DOX and iron in mitochondria cooperatively induces ferroptosis in cardiomyocytes and suggest that 5-ALA can be used as a potential therapeutic agent for DIC.

AB - Clinical use of doxorubicin (DOX) is limited because of its cardiotoxicity, referred to as DOX-induced cardiomyopathy (DIC). Mitochondria-dependent ferroptosis, which is triggered by iron overload and excessive lipid peroxidation, plays a pivotal role in the progression of DIC. Here, we showed that DOX accumulated in mitochondria by intercalating into mitochondrial DNA (mtDNA), inducing ferroptosis in an mtDNA content-dependent manner. In addition, DOX disrupted heme synthesis by decreasing the abundance of 5'-aminolevulinate synthase 1 (Alas1), the rate-limiting enzyme in this process, thereby impairing iron utilization, resulting in iron overload and ferroptosis in mitochondria in cultured cardiomyocytes. Alas1 overexpression prevented this outcome. Administration of 5-aminolevulinic acid (5-ALA), the product of Alas1, to cultured cardiomyocytes and mice suppressed iron overload and lipid peroxidation, thereby preventing DOX-induced ferroptosis and DIC. Our findings reveal that the accumulation of DOX and iron in mitochondria cooperatively induces ferroptosis in cardiomyocytes and suggest that 5-ALA can be used as a potential therapeutic agent for DIC.

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