Department of Chemistry, Fudan University, Shanghai, 200433, China.
School of Life Sciences, Fudan University, Shanghai, 200438, China.
Cardiovasc Toxicol. 2023 Dec;23(11-12):364-376. doi: 10.1007/s12012-023-09809-2. Epub 2023 Oct 3.
A growing concern of cardiotoxicity induced by PI3K inhibitors has raised the requirements to evaluate the structure-cardiotoxicity relationship (SCR) in the development process of novel inhibitors. Based on three bioisosteric 7-azaindazole-based candidate inhibitors namely FD269, FD268 and FD274 that give same order of inhibitory concentration 50% (IC) magnitude against PI3Ks, in this work, we proposed to systematically evaluate the SCR of 7-azaindazole-based PI3K inhibitors designed by bioisosteric approach. The 24-h lethal concentrations 50% (LC) of FD269, FD268 and FD274 against zebrafish embryos were 0.35, 4.82 and above 50 μM (not detected), respectively. Determination of the heart rate, pericardial and yolk-sac areas and vascular malformation confirmed the remarkable reduction in the cardiotoxicity of from FD269 to FD268 and to FD274. The ICs of all three compounds against the hERG channel were tested on the CHO cell line that constitutively expressing hERG channel, which were all higher than 20 μM. The transcriptomic analysis revealed that FD269 and FD268 induced the up-regulation of noxo1b, which encodes a subunit of an NADPH oxidase evoking the oxidative stress. Furthermore, immunohistochemistry tests confirmed the structure-dependent attenuation of the overproduction of ROS and cardiac apoptosis. Our results verified the feasibility of bioisosteric replacement to attenuate the cardiotoxicity of 7-azaindazole-based PI3K inhibitors, suggesting that the screening for PI3K inhibitors with both high potency and low cardiotoxicity from bioisosteres would be a beneficial trial.
PI3K 抑制剂引起的心脏毒性日益受到关注,这提高了在新型抑制剂开发过程中评估结构-心脏毒性关系 (SCR) 的要求。基于三个生物等排 7-氮杂吲哚基候选抑制剂 FD269、FD268 和 FD274,它们对 PI3Ks 的抑制浓度 50%(IC)具有相同的数量级,在这项工作中,我们提出系统地评估生物等排方法设计的 7-氮杂吲哚基 PI3K 抑制剂的 SCR。FD269、FD268 和 FD274 对斑马鱼胚胎的 24 小时致死浓度 50%(LC)分别为 0.35、4.82 和 50 μM 以上(未检出)。心率、心包和卵黄囊面积以及血管畸形的测定证实,FD269 到 FD268 再到 FD274 的心脏毒性显著降低。三种化合物对 hERG 通道的 IC 在稳定表达 hERG 通道的 CHO 细胞系上进行测试,均高于 20 μM。转录组分析显示,FD269 和 FD268 诱导 noxo1b 的上调,该基因编码 NADPH 氧化酶的一个亚基,引发氧化应激。此外,免疫组织化学测试证实了结构依赖性降低 ROS 和心脏细胞凋亡的过度产生。我们的结果验证了生物等排替代法减轻 7-氮杂吲哚基 PI3K 抑制剂心脏毒性的可行性,表明从生物等排体筛选高活性和低心脏毒性的 PI3K 抑制剂将是一项有益的尝试。
