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  • Title: Rutin protects against pirarubicin-induced cardiotoxicity by adjusting microRNA-125b-1-3p-mediated JunD signaling pathway.
    Author: Li Q, Qin M, Li T, Gu Z, Tan Q, Huang P, Ren L.
    Journal: Mol Cell Biochem; 2020 Mar; 466(1-2):139-148. PubMed ID: 32016695.
    Abstract:
    Pirarubicin (THP), an anthracycline drug, is widely used as a basic therapeutic agent for the treatment of carcinoma and lymphatic malignant tumor. However, it exerts irreversible cardiotoxicity in varying degrees. At present, dexrazoxane (DZR) is the only cardioprotective agent used to treat anthracycline drug-induced cardiotoxicity, but it may reduce the anticancer effect of anthracycline drugs, causing severe granulocytopenia and other adverse reactions. Therefore, it is necessary to discover more effective and less toxic drugs for the treatment of THP-induced cardiotoxicity. The present study aimed to investigate the effects and possible mechanisms of rutin (RUT) against THP-induced cardiomyocyte injury. An in vitro cardiomyocyte injury model of THP-treated murine immortalized cardiomyocytes (HL-1) was used in this study. The results showed that RUT markedly increased the viability of HL-1 cells through protection against THP-induced cardiomyocyte injury. Furthermore, RUT significantly inhibited myocardial oxidative insult by adjusting the levels of intracellular reactive oxygen species (ROS). Our data also indicated that RUT activated JunD signaling pathways, thereby affecting the expression levels of some apoptotic proteins by decreasing miR-125b-1-3p expression level. In addition, intracellular ROS level significantly increased in HL-1 cells treated with THP after miR-125b-1-3p mimic transfection, whereas the expression of JunD was downregulated and that of some apoptotic proteins was upregulated. However, this effect was markedly reversed by RUT. Therefore, we inferred that the protective effect of RUT on THP cardiotoxicity was achieved through regulation of the JunD gene by miR-125b-1-3p. This experiment revealed the protective effect of RUT on THP-induced cardiotoxicity at the non-coding RNA level and provided a theoretical foundation for the application of RUT as a protective agent against THP cardiotoxicity.
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