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Peroxiredoxin-1 Overexpression Attenuates Doxorubicin-Induced Cardiotoxicity by Inhibiting Oxidative Stress and Cardiomyocyte Apoptosis

Lai Jiang, Yanping Gong, Yida Hu, Yangyang You, Jiawu Wang, Zhetao Zhang, Zeyuan Wei, Chaoliang Tang

2020Oxidative Medicine and Cellular Longevity40 citationsDOIOpen Access PDF

Abstract

. Previous research has shown that peroxiredoxin 1 (Prdx1) is an important modulator of physiological and pathophysiological cardiovascular events. This study is aimed at investigating the role and underlying mechanism of Prdx1 in doxorubicin- (DOX-) induced cardiotoxicity. Cardiac-specific expression of Prdx1 was induced in mice, and the mice received a single dose of DOX (15 mg/kg) to generate cardiotoxicity. First, our study demonstrated that Prdx1 expression was upregulated in the heart and in cardiomyocytes after DOX treatment. Second, we provided direct evidence that Prdx1 overexpression ameliorated DOX-induced cardiotoxicity by attenuating oxidative stress and cardiomyocyte apoptosis. Mechanistically, we found that DOX treatment increased the phosphorylation level of apoptosis signal-regulating kinase-1 (ASK1) and the downstream protein p38 in the heart and in cardiomyocytes, and these effects were decreased by Prdx1 overexpression. In contrast, inhibiting Prdx1 promoted DOX-induced cardiac injury via the ASK1/p38 pathway. These results suggest that Prdx1 may be an effective therapeutic option to prevent DOX-induced cardiotoxicity.

Topics & Concepts

CardiotoxicityOxidative stressDoxorubicinApoptosisASK1p38 mitogen-activated protein kinasesPharmacologyDownregulation and upregulationMedicinePeroxiredoxinCancer researchSignal transductionCell biologyChemistryKinaseProtein kinase AProtein kinase CBiologyChemotherapyInternal medicineBiochemistryEnzymeMitogen-activated protein kinase kinaseGenePeroxidaseRedox biology and oxidative stressChemotherapy-induced cardiotoxicity and mitigationElectron Spin Resonance Studies
Peroxiredoxin-1 Overexpression Attenuates Doxorubicin-Induced Cardiotoxicity by Inhibiting Oxidative Stress and Cardiomyocyte Apoptosis | Litcius