Left ventricular ejection fraction is used to monitor patients undergoing cardiotoxic chemotherapy. A decrease in left ventricular ejection fraction represents a relatively late stage of systolic involvement. Global longitudinal strain has been studied to detect early changes in left ventricular myocardial contractile function. The aim of the present study was to evaluate the global longitudinal strain measurement in the early detection of cardiotoxicity induced by cardiotoxic chemotherapeutic agents.Doxorubicin (DOX) is an effective antitumor drug; however, but its clinical application is seriously limited by the cardiotoxicity induced by its use. Recent studies have found that ferroptosis is an important mechanism underlying DOX-induced cardiotoxicity. However, existing studies are based on DOX-induced acute or subacute cardiotoxicity model. Therefore, we established a murine model of DOX-induced chronic cardiotoxicity using the clinically relevant cumulative dose, to evaluate the potential molecular mechanism underlying ferroptosis of cardiomycocytes. Male C57 mice were received intraperitoneal injections of DOX at a dose of 3 mg/kg body weight, once a week for 12 weeks. We dynamically analysed echocardiographic findings, serum myocardial enzyme levels, haematological indexes and cardiac histopathological changes.

The results showed that, after receiving a cumulative DOX dose of 15 mg/kg, the mice developed anaemia and the function and structure of the heart changed significantly with an increase in the cumulative DOX dose. Importantly, with a cumulative DOX dose of 36 mg/kg, iron overload occurred in the heart tissue. Moreover, RNA-sequencing analysis and experimental verification revealed that ferropotosis is the underlying mechanism of DOX-induced chronic cardiotoxicity. Our results showed that DOX inhibits Slc7a11 in system-Xc, resulting in the reduction of GSH synthesis to prevent GPX4 from scavenging lipid peroxides. In addition, DOX induced the occurrence of ferroptosis via down-regulating Nrf2 expression to inhibit HO-1 and GPx4 levels. Our study provides a new perspective for evaluating the pathophysiology of DOX-induced chronic cardiotoxicity in the future, and developing new potential therapeutic strategies for the prevention and treatment of DOX-induced cardiotoxicity.

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Mishita
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Journal of Heart and Cardiovascular Research