Exercise and Doxorubicin Modify Markers of Iron Overload and Cardiolipin Deficiency in Cardiac Mitochondria

Autor:	Ryan N. Montalvo, Franccesco P. Boeno, Imtiaz M. Dowllah, Cesar E. Jacintho Moritz, Branden L. Nguyen, Vivian Doerr, Matthew P. Bomkamp, Ashley J. Smuder
Rok vydání:	2023
Předmět:	Inorganic Chemistry heart cardiotoxicity anthracycline oxidative stress subsarcolemmal intermyofibrillar Organic Chemistry General Medicine Physical and Theoretical Chemistry Molecular Biology Spectroscopy Catalysis Computer Science Applications
Zdroj:	International Journal of Molecular Sciences; Volume 24; Issue 9; Pages: 7689
ISSN:	1422-0067
DOI:	10.3390/ijms24097689
Popis:	Doxorubicin (DOX) is a chemotherapeutic agent highly effective at limiting cancer progression. Despite the efficacy of this anticancer drug, the clinical use of DOX is limited due to cardiotoxicity. The cardiac mitochondria are implicated as the primary target of DOX, resulting in inactivation of electron transport system complexes, oxidative stress, and iron overload. However, it is established that the cardiac mitochondrial subpopulations reveal differential responses to DOX exposure, with subsarcolemmal (SS) mitochondria demonstrating redox imbalance and the intermyofibrillar (IMF) mitochondria showing reduced respiration. In this regard, exercise training is an effective intervention to prevent DOX-induced cardiac dysfunction. Although it is clear that exercise confers mitochondrial protection, it is currently unknown if exercise training mitigates DOX cardiac mitochondrial toxicity by promoting beneficial adaptations to both the SS and IMF mitochondria. To test this, SS and IMF mitochondria were isolated from sedentary and exercise-preconditioned female Sprague Dawley rats exposed to acute DOX treatment. Our findings reveal a greater effect of exercise preconditioning on redox balance and iron handling in the SS mitochondria of DOX-treated rats compared to IMF, with rescue of cardiolipin synthase 1 expression in both subpopulations. These results demonstrate that exercise preconditioning improves mitochondrial homeostasis when combined with DOX treatment, and that the SS mitochondria display greater protection compared to the IMF mitochondria. These data provide important insights into the molecular mechanisms that are in part responsible for exercise-induced protection against DOX toxicity.
Databáze:	OpenAIRE
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