Wu Wen-Han, Zhi Hao, Feng Wen-Ke, Jiang Ling, Yang Lu, Qian Li-Qiang, Zhao Rui-Xi, Tan Yong-Mei, Yang Han-Yu, Liu Xiao-Dong, Liu Li
Center of Drug Metabolism and Pharmacokinetics, School of Pharmacy, China Pharmaceutical University, Nanjing, 210029, China.
Acta Pharmacol Sin. 2025 Mar;46(3):687-701. doi: 10.1038/s41401-024-01401-w. Epub 2024 Oct 29.
Patients taking atypical antipsychotics (AAPs), especially clozapine, are often associated with hyperglycaemia. Here, clozapine served as a representative agent for investigating how AAPs induce hyperglycaemia. In normal mice and mice fed a high fat diet (HFD), clozapine impaired glucose tolerance and glucose-stimulated insulin secretion (GSIS) following intraperitoneal glucose administration and increased plasma 5-HT levels. Intraperitoneal 5-HT administration also impaired glucose tolerance and GSIS in mice. In INS-1 cells, high 5-HT levels impaired GSIS, which was attenuated by the 5-HTR antagonist tropisetron or by silencing 5-HTR. The 5-HTR agonist TCB2 attenuated clozapine-induced GSIS impairment. Silencing 5-HTR or the 5-HTR antagonist ketanserin impaired GSIS. In mice, 5-HT administration impaired GSIS, which was attenuated by tropisetron but aggravated by clozapine. Clozapine increased plasma [H]5-HT exposure following intravenous administration to mice. In HEK293-OCT1 cells, clozapine inhibited [H]5-HT and MPP uptake. Clozapine or OCT1 silencing impaired 5-HT metabolism in mouse primary hepatocytes, demonstrating that clozapine increased plasma 5-HT levels via the inhibition of OCT1-mediated hepatic 5-HT uptake. Liver-specific silencing of OCT1 increased plasma [H]5-HT exposure and 5-HT levels and impaired GSIS and glucose tolerance in mice. In conclusion, clozapine impaired GSIS and glucose tolerance by increasing plasma 5-HT levels via the inhibition of OCT1-mediated hepatic 5-HT uptake. Increased 5-HT impaired GSIS by activating islet 5-HTR. The antagonistic effect of clozapine on islet 5-HTR also contributed to GSIS impairment. The finding that clozapine-induced GSIS impairment was attributed to increased 5-HT levels via the inhibition of OCT1-mediated hepatic 5-HT uptake may partly explain hyperglycaemia caused by other AAPs.
服用非典型抗精神病药物(AAPs),尤其是氯氮平的患者,常伴有高血糖症。在此,氯氮平作为一种代表性药物,用于研究AAPs如何诱发高血糖症。在正常小鼠和高脂饮食(HFD)喂养的小鼠中,腹腔注射葡萄糖后,氯氮平损害葡萄糖耐量和葡萄糖刺激的胰岛素分泌(GSIS),并增加血浆5-羟色胺(5-HT)水平。腹腔注射5-HT也会损害小鼠的葡萄糖耐量和GSIS。在INS-1细胞中,高5-HT水平损害GSIS,5-HT受体拮抗剂托烷司琼或沉默5-HT受体会减弱这种损害。5-HT受体激动剂TCB2减弱氯氮平诱导的GSIS损害。沉默5-HT受体或5-HT受体拮抗剂酮色林会损害GSIS。在小鼠中,注射5-HT会损害GSIS,托烷司琼可减弱这种损害,而氯氮平会加重这种损害。对小鼠静脉注射氯氮平后,其血浆[H]5-HT暴露增加。在HEK293-OCT1细胞中,氯氮平抑制[H]5-HT和MPP摄取。氯氮平或沉默OCT1会损害小鼠原代肝细胞中的5-HT代谢,表明氯氮平通过抑制OCT1介导的肝脏5-HT摄取来增加血浆5-HT水平。肝脏特异性沉默OCT1会增加小鼠血浆[H]5-HT暴露和5-HT水平,并损害GSIS和葡萄糖耐量。总之,氯氮平通过抑制OCT1介导的肝脏5-HT摄取来增加血浆5-HT水平,从而损害GSIS和葡萄糖耐量。5-HT增加通过激活胰岛5-HT受体来损害GSIS。氯氮平对胰岛5-HT受体的拮抗作用也导致GSIS损害。氯氮平诱导的GSIS损害归因于通过抑制OCT1介导的肝脏5-HT摄取而导致的5-HT水平升高,这一发现可能部分解释了其他AAPs引起的高血糖症。
