School of Pharmacy, Jinan University, Guangzhou 510632, Guangdong, China; Post-Doctoral Innovation Base, Jinan University Affiliation, Yuanzhi Health Technology Co, Ltd, Hengqin New District, Zhuhai, Guangdong 51900, China.
School of Pharmacy, Jinan University, Guangzhou 510632, Guangdong, China; Post-Doctoral Innovation Base, Jinan University Affiliation, Yuanzhi Health Technology Co, Ltd, Hengqin New District, Zhuhai, Guangdong 51900, China.
Life Sci. 2022 Mar 15;293:120336. doi: 10.1016/j.lfs.2022.120336. Epub 2022 Jan 19.
Individuals with nonalcoholic hepatosteatosis (NAFLD) have a worse atherogenic lipoprotein profile and are susceptible to cardiovascular diseases. The MEK-ERK signaling cascades are central regulators of the levels of LDL receptor (LDLR), a major determinant of circulating cholesterol. It is elusive how hepatic steatosis contributes to dyslipidemia, especially hypercholesterolemia.
The effects of BChE on signaling pathways were determined by immunoblotting in a BChE knockout hepatocyte cell line. DiI-LDL probe was used to explore the effect of BChE expression on LDL internalization. Co-immunoprecipitation and LC-MS were used to explore the interacting proteins with BChE. Finally, a hepatocyte-restricted BChE silencing mouse model was established by AAV8-Tbg-shRNA, and the hypercholesterolemia was induced by 65% kcal% high-fat, high-sucrose diet feeding.
Here we demonstrate that butyrylcholinesterase (BChE) governs the LDL receptor levels and LDL uptake capacity through the MEK-ERK signaling cascades to promote Ldlr transcription. BChE interacts and co-localizes with PRMT5, a protein methylation modifier controlling the ERK signaling. PRMT5 regulates LDLR-dependent LDL uptake and is a substrate of chaperone-mediated autophagy (CMA). BChE deficiency induces the PRTM5 degradation dependent on CMA activity, possibly through facilitating the HSC70 (Heat shock cognate 71 kDa) recognition of PRMT5. Remarkably, in vivo hepatocyte-restricted BChE silencing reduces plasma cholesterol levels substantially. In contrast, the BChE knockout mice are predisposed to hypercholesterolemia.
Taken together, these findings outline a regulatory role for the BChE-PRMT5-ERK-LDLR axis in hepatocyte cholesterol metabolism, and suggest that targeting liver BChE is an effective therapeutic strategy to treat hypercholesterolemia.
非酒精性脂肪性肝病 (NAFLD) 患者的致动脉粥样硬化脂蛋白谱更差,易患心血管疾病。MEK-ERK 信号级联是 LDL 受体 (LDLR) 水平的主要调节剂,LDLR 是循环胆固醇的主要决定因素。肝脂肪变性如何导致血脂异常,尤其是高胆固醇血症,目前还不清楚。
通过 BChE 敲除肝细胞系中的免疫印迹确定 BChE 对信号通路的影响。使用 DiI-LDL 探针探索 BChE 表达对 LDL 内化的影响。共免疫沉淀和 LC-MS 用于探索与 BChE 相互作用的蛋白质。最后,通过 AAV8-Tbg-shRNA 建立了肝细胞特异性 BChE 沉默小鼠模型,并用 65%kcal%高脂肪、高蔗糖饮食诱导高胆固醇血症。
本文证明,丁酰胆碱酯酶 (BChE) 通过 MEK-ERK 信号级联调节 LDL 受体水平和 LDL 摄取能力,从而促进 Ldlr 转录。BChE 与 PRMT5 相互作用并共定位,PRMT5 是一种控制 ERK 信号的蛋白质甲基化修饰剂。PRMT5 调节 LDLR 依赖性 LDL 摄取,是伴侣介导自噬 (CMA) 的底物。BChE 缺乏诱导 PRTM5 降解依赖于 CMA 活性,可能是通过促进 HSC70(热休克同源 71kDa)识别 PRMT5。值得注意的是,体内肝细胞特异性 BChE 沉默可显著降低血浆胆固醇水平。相比之下,BChE 敲除小鼠易发生高胆固醇血症。
总之,这些发现概述了 BChE-PRMT5-ERK-LDLR 轴在肝细胞胆固醇代谢中的调节作用,并表明靶向肝脏 BChE 是治疗高胆固醇血症的有效治疗策略。
