[Cardiotoxicity risk assessment of anti-cancer drugs and future perspectives].

Abstract

Cardiotoxicity is a serious adverse effect of anti-cancer drugs. Anti-cancer drug-induced cardiotoxicity are arrhythmia, cardiac contractile dysfunction, coronary artery disease, and hypertension, which affect to the quality of life in patients with cancer. In particular, cardiac contractile dysfunction is a life-threatening symptom leading to heart failure, suggesting that it is very important to predict the risk of developing the contractile dysfunction by anti-cancer drugs. Recently, human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) can be used to assess the risk of drug-induced arrhythmias. This prompts us to evaluate other cardiotoxic effects such as contractility dysfunction and structural toxicity with hiPSC-CMs. Since anti-cancer drug-induced contractility dysfunction are considered to be induced by chronic exposure, we have developed a method to assess chronic contractility dysfunction by imaging analysis of hiPSC-CMs. BMS-986094, which failed in clinical trials due to the occurrence of heart failure, was used as a positive compound. We found that chronic exposure to BMS-986094 decreased the contraction and relaxation velocity in hiPSC-CMs. Doxorubicin was observed to decrease cytotoxicity and both contraction and relaxation velocities in hiPSC-CMs. We are currently further evaluating other anti-cancer drugs with different mode-of-actions using hiPSC-CMs and assess the predictivity and utility of contractile assessment using hiPSC-CMs by comparing with real-world data. Here, we introduce our novel method to assess the chronic contractility of hiPSC-CMs by imaging analysis and discuss the future perspectives for assessing the anti-cancer drug-induced cardiotoxicity.