Drug Metabolism and Toxicology, Faculty of Pharmaceutical Sciences, Kanazawa University, Kakuma-machi, Kanazawa, 920-1192, Japan.
Drug Metabolism and Toxicology, Faculty of Pharmaceutical Sciences, Kanazawa University, Kakuma-machi, Kanazawa, 920-1192, Japan; WPI Nano Life Science Institute, Kakuma-machi, Kanazawa, 920-1192, Japan.
Drug Metab Pharmacokinet. 2024 Jun;56:101007. doi: 10.1016/j.dmpk.2024.101007. Epub 2024 Mar 6.
Arylacetamide deacetylase (AADAC) is involved in drug hydrolysis and lipid metabolism. In 23 human liver samples, no significant correlation was observed between AADAC mRNA (19.7-fold variation) and protein levels (137.6-fold variation), suggesting a significant contribution of post-transcriptional regulation to AADAC expression. The present study investigated whether AADAC is regulated by microRNA in the human liver and elucidate its biological significance. Computational analysis predicted two potential miR-222-3p recognition elements in the 3'-untranslated region (UTR) of AADAC. Luciferase assay revealed that the miR-222-3p recognition element was functional in downregulating AADAC expression. In HEK293 cells transfected with an AADAC expression plasmid containing 3'-UTR, miR-222-3p overexpression decreased AADAC protein level and activity, whereas miR-222-3p inhibition increased them. Similar results were observed in human hepatoma-derived Huh-1 cells endogenously expressing AADAC and HepaSH cells that are hepatocytes from chimeric mice with humanized livers. In individual human liver samples, AADAC protein levels inversely correlated with miR-222-3p levels. Overexpression of miR-222-3p resulted in increased lipid accumulation in Huh-1 cells, which was reversed by AADAC overexpression. In contrast, miR-222-3p inhibition decreased lipid accumulation, which was reversed by AADAC knockdown. In conclusion, we found that hepatic AADAC was downregulated by miR-222-3p, resulting in decreased drug hydrolysis and increased lipid accumulation.
芳基乙酰胺脱乙酰酶 (AADAC) 参与药物水解和脂质代谢。在 23 个人肝组织样本中,AADAC mRNA(19.7 倍变化)和蛋白水平(137.6 倍变化)之间没有显著相关性,表明转录后调控对 AADAC 表达有重要贡献。本研究探讨了 AADAC 是否在人肝中受 microRNA 调控,并阐明其生物学意义。计算分析预测 AADAC 的 3'-非翻译区 (UTR) 中有两个潜在的 miR-222-3p 识别元件。荧光素酶测定显示 miR-222-3p 识别元件在下调 AADAC 表达中起作用。在转染含有 3'-UTR 的 AADAC 表达质粒的 HEK293 细胞中,miR-222-3p 过表达降低了 AADAC 蛋白水平和活性,而 miR-222-3p 抑制则增加了它们的水平。在人肝癌衍生的 Huh-1 细胞中观察到类似的结果,这些细胞内源性表达 AADAC,以及 HepaSH 细胞,这些细胞是具有人源化肝脏的嵌合小鼠的肝细胞。在个体人肝组织样本中,AADAC 蛋白水平与 miR-222-3p 水平呈负相关。miR-222-3p 的过表达导致 Huh-1 细胞中脂质积累增加,而 AADAC 的过表达则逆转了这一现象。相反,miR-222-3p 的抑制降低了脂质积累,而 AADAC 的敲低则逆转了这一现象。总之,我们发现肝 AADAC 受 miR-222-3p 下调,导致药物水解减少和脂质积累增加。
