WGX50 Mitigates Doxorubicin-induced Cardiotoxicity Through Inhibition of Mitochondrial ROS and Ferroptosis

Overview

Journal J Transl Med

Publisher Biomed Central

Specialties Biomedical Engineering
General Medicine

Date 2023 Nov 18

PMID 37978379

Authors

Panpan Tai

Xinyu Chen

Guihua Jia

Guanjun Chen

Lian Gong

Yaxin Cheng

Zhuan Li

Heng Wang

Aiyan Chen

Ganghua Zhang

Yuxing Zhu

Mengqing Xiao

Zhanwang Wang

Yunqing Liu

Dongyong Shan

Dong He

Moying Li

Tianzuo Zhan

Abbas Khan

Xiaohui Li

Xiangxiang Zeng

Chaopeng Li

Dongsheng Ouyang

Kelong Ai

Xuan Chen

Dongbo Liu

Zhonghua Liu

Dongqing Wei

Ke Cao

Affiliations

Soon will be listed here.

Abstract

Background: Doxorubicin (DOX)-induced cardiotoxicity (DIC) is a major impediment to its clinical application. It is indispensable to explore alternative treatment molecules or drugs for mitigating DIC. WGX50, an organic extract derived from Zanthoxylum bungeanum Maxim, has anti-inflammatory and antioxidant biological activity, however, its function and mechanism in DIC remain unclear.

Methods: We established DOX-induced cardiotoxicity models both in vitro and in vivo. Echocardiography and histological analyses were used to determine the severity of cardiac injury in mice. The myocardial damage markers cTnT, CK-MB, ANP, BNP, and ferroptosis associated indicators Fe, MDA, and GPX4 were measured using ELISA, RT-qPCR, and western blot assays. The morphology of mitochondria was investigated with a transmission electron microscope. The levels of mitochondrial membrane potential, mitochondrial ROS, and lipid ROS were detected using JC-1, MitoSOX™, and C11-BODIPY 581/591 probes.

Results: Our findings demonstrate that WGX50 protects DOX-induced cardiotoxicity via restraining mitochondrial ROS and ferroptosis. In vivo, WGX50 effectively relieves doxorubicin-induced cardiac dysfunction, cardiac injury, fibrosis, mitochondrial damage, and redox imbalance. In vitro, WGX50 preserves mitochondrial function by reducing the level of mitochondrial membrane potential and increasing mitochondrial ATP production. Furthermore, WGX50 reduces iron accumulation and mitochondrial ROS, increases GPX4 expression, and regulates lipid metabolism to inhibit DOX-induced ferroptosis.

Conclusion: Taken together, WGX50 protects DOX-induced cardiotoxicity via mitochondrial ROS and the ferroptosis pathway, which provides novel insights for WGX50 as a promising drug candidate for cardioprotection.

Citing Articles

Doxorubicin-Induced Cardiac Remodeling: Mechanisms and Mitigation Strategies.

Sun Y, Xiao L, Chen L, Wang X Cardiovasc Drugs Ther. 2025; .

PMID: 40009315 DOI: 10.1007/s10557-025-07673-6.

Protein-free domains in native and ferroptosis-driven oxidized cell membranes: a molecular dynamics study of biophysical properties and doxorubicin uptake.

Shabanpour Y, Hajipour-Verdom B, Abdolmaleki P, Alipour M Front Mol Biosci. 2024; 11:1494257.

PMID: 39611002 PMC: 11602475. DOI: 10.3389/fmolb.2024.1494257.

Ferroptosis and Its Potential Role in the Physiopathology of Skeletal Muscle Atrophy.

Sun C, Xiao J, Sun C, Tang C Int J Mol Sci. 2024; 25(22).

PMID: 39596528 PMC: 11595065. DOI: 10.3390/ijms252212463.

The mechanism and therapeutic strategies in doxorubicin-induced cardiotoxicity: Role of programmed cell death.

Li Y, Yan J, Yang P Cell Stress Chaperones. 2024; 29(5):666-680.

PMID: 39343295 PMC: 11490929. DOI: 10.1016/j.cstres.2024.09.001.

Evaluation of Known Markers of Ferroptosis in Semen of Patients with Different Reproductive Pathologies and Fertile Men.

Moretti E, Signorini C, Liguori L, Corsaro R, Nerucci F, Fiorini M Cells. 2024; 13(17.

PMID: 39273059 PMC: 11394366. DOI: 10.3390/cells13171490.

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