1. Diazoxide Modulates Cardiac Hypertrophy by Targeting H2O2 Generation and Mitochondrial Superoxide Dismutase Activity
- Author
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Heberty T. Facundo, Maria Thalyne Silva Araújo, Alicia J. Kowaltowski, Anna Lídia Nunes Varela, Yuana Ivia Ponte Viana, Joana Varlla de Lacerda Alexandre, Cicera Edna Barbosa David, Beatriz Neves Coelho, Aline Maria Brito Lucas, and Francisco Rodrigo Lemos Caldas
- Subjects
0301 basic medicine ,medicine.medical_specialty ,Potassium Channels ,Thiobarbituric acid ,Drug Evaluation, Preclinical ,Cardiomegaly ,030204 cardiovascular system & hematology ,Mitochondrion ,medicine.disease_cause ,Thiobarbituric Acid Reactive Substances ,Muscle hypertrophy ,Glibenclamide ,Protein Carbonylation ,03 medical and health sciences ,chemistry.chemical_compound ,Mice ,0302 clinical medicine ,Lipid oxidation ,Internal medicine ,medicine ,Diazoxide ,TBARS ,Animals ,Ion Transport ,Superoxide Dismutase ,Isoproterenol ,General Medicine ,Hydrogen Peroxide ,Oxidative Stress ,030104 developmental biology ,Endocrinology ,chemistry ,Potassium ,Oxidative stress ,medicine.drug - Abstract
Background: Cardiac hypertrophy involves marked wall thickening or chamber enlargement. If sustained, this condition will lead to dysfunctional mitochondria and oxidative stress. Mitochondria have ATP-sensitive K+ channels (mitoKATP) in the inner membrane that modulate the redox status of the cell. Objective: We investigated the in vivo effects of mitoKATP opening on oxidative stress in isoproterenol- induced cardiac hypertrophy. Methods: Cardiac hypertrophy was induced in Swiss mice treated intraperitoneally with isoproterenol (ISO - 30 mg/kg/day) for 8 days. From day 4, diazoxide (DZX - 5 mg/kg/day) was used in order to open mitoKATP (a clinically relevant therapy scheme) and 5-hydroxydecanoate (5HD - 5 mg/kg/day) or glibenclamide (GLI - 3 mg/kg/day) were used as mitoKATP blockers. Results: Isoproterenol-treated mice had elevated heart weight/tibia length ratios (HW/TL). Additionally, hypertrophic hearts had elevated levels of carbonylated proteins and Thiobarbituric Acid Reactive Substances (TBARS), markers of protein and lipid oxidation. In contrast, mitoKATP opening with DZX avoided ISO effects on gross hypertrophic markers (HW/TL), carbonylated proteins and TBARS, in a manner reversed by 5HD and GLI. Moreover, DZX improved mitochondrial superoxide dismutase activity. This effect was also blocked by 5HD and GLI. Additionally, ex vivo treatment of isoproterenol- induced hypertrophic cardiac tissue with DZX decreased H2O2 production in a manner sensitive to 5HD, indicating that this drug also acutely avoids oxidative stress. Conclusion: Our results suggest that diazoxide blocks oxidative stress and reverses cardiac hypertrophy. This pharmacological intervention could be a potential therapeutic strategy to prevent oxidative stress associated with cardiac hypertrophy.
- Published
- 2019