Investigating and Resolving Cardiotoxicity Induced by COVID‐19 Treatments using Human Pluripotent Stem Cell‐Derived Cardiomyocytes and Engineered Heart Tissues

He Xu; Ge Liu; Jixing Gong; Ying Zhang; Shanshan Gu; Zhongjun Wan; Pengcheng Yang; Yage Nie; Yinghan Wang; Zhan‐peng Huang; Guanzheng Luo; Zhongyan Chen; Donghui Zhang; Nan Cao

doi:10.1002/advs.202203388

Advanced Science (Oct 2022)

Investigating and Resolving Cardiotoxicity Induced by COVID‐19 Treatments using Human Pluripotent Stem Cell‐Derived Cardiomyocytes and Engineered Heart Tissues

He Xu,
Ge Liu,
Jixing Gong,
Ying Zhang,
Shanshan Gu,
Zhongjun Wan,
Pengcheng Yang,
Yage Nie,
Yinghan Wang,
Zhan‐peng Huang,
Guanzheng Luo,
Zhongyan Chen,
Donghui Zhang,
Nan Cao

Affiliations

He Xu: Center of Translational Medicine The First Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China
Ge Liu: The Seventh Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China
Jixing Gong: National & Local Joint Engineering Research Center of High‐throughput Drug Screening Technology State Key Laboratory of Biocatalysis and Enzyme Engineering Hubei Province Key Laboratory of Biotechnology of Chinese Traditional Medicine Hubei University Wuhan 430062 China
Ying Zhang: The Seventh Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China
Shanshan Gu: The Seventh Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China
Zhongjun Wan: National & Local Joint Engineering Research Center of High‐throughput Drug Screening Technology State Key Laboratory of Biocatalysis and Enzyme Engineering Hubei Province Key Laboratory of Biotechnology of Chinese Traditional Medicine Hubei University Wuhan 430062 China
Pengcheng Yang: National & Local Joint Engineering Research Center of High‐throughput Drug Screening Technology State Key Laboratory of Biocatalysis and Enzyme Engineering Hubei Province Key Laboratory of Biotechnology of Chinese Traditional Medicine Hubei University Wuhan 430062 China
Yage Nie: The Seventh Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China
Yinghan Wang: The Seventh Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China
Zhan‐peng Huang: Center of Translational Medicine The First Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China
Guanzheng Luo: MOE Key Laboratory of Gene Function and Regulation State Key Laboratory of Biocontrol School of Life Sciences Sun Yat‐Sen University Guangdong 510275 China
Zhongyan Chen: The Seventh Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China
Donghui Zhang: National & Local Joint Engineering Research Center of High‐throughput Drug Screening Technology State Key Laboratory of Biocatalysis and Enzyme Engineering Hubei Province Key Laboratory of Biotechnology of Chinese Traditional Medicine Hubei University Wuhan 430062 China
Nan Cao: The Seventh Affiliated Hospital Zhongshan School of Medicine Sun Yat‐Sen University Guangdong 510080 China

DOI: https://doi.org/10.1002/advs.202203388
Journal volume & issue: Vol. 9, no. 30
pp. n/a – n/a

Abstract

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Abstract Coronavirus disease 2019 continues to spread worldwide. Given the urgent need for effective treatments, many clinical trials are ongoing through repurposing approved drugs. However, clinical data regarding the cardiotoxicity of these drugs are limited. Human pluripotent stem cell‐derived cardiomyocytes (hCMs) represent a powerful tool for assessing drug‐induced cardiotoxicity. Here, by using hCMs, it is demonstrated that four antiviral drugs, namely, apilimod, remdesivir, ritonavir, and lopinavir, exhibit cardiotoxicity in terms of inducing cell death, sarcomere disarray, and dysregulation of calcium handling and contraction, at clinically relevant concentrations. Human engineered heart tissue (hEHT) model is used to further evaluate the cardiotoxic effects of these drugs and it is found that they weaken hEHT contractile function. RNA‐seq analysis reveals that the expression of genes that regulate cardiomyocyte function, such as sarcomere organization (TNNT2, MYH6) and ion homeostasis (ATP2A2, HCN4), is significantly altered after drug treatments. Using high‐throughput screening of approved drugs, it is found that ceftiofur hydrochloride, astaxanthin, and quetiapine fumarate can ameliorate the cardiotoxicity of remdesivir, with astaxanthin being the most prominent one. These results warrant caution and careful monitoring when prescribing these therapies in patients and provide drug candidates to limit remdesivir‐induced cardiotoxicity.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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