Calcitriol ameliorates the progression of hepatic fibrosis through autophagy-related gene 16-like 1-mediated autophagy

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-02-29 DOI:10.1016/j.amjms.2024.02.010

Enshuang Guo PhD , Huixing Yuan PhD , Renlong Li PhD , Jiankun Yang BS , Shenpei Liu BS , Anding Liu PhD , Xiaojing Jiang PhD

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Abstract

Background

Calcitriol has the potential to counteract fibrotic diseases beyond its classical action of maintaining calcium and bone metabolism; however, its functional mechanism remains unknown. Autophagy-related gene 16-like 1 (Atg16l1) is one of the genes related to autophagy and is involved in protecting against fibrotic diseases. The present study aimed to explore the contribution of autophagy to the inhibition of calcitriol-induced hepatic fibrosis, as well as its potential molecular mechanism.

Methods

Carbon tetrachloride (Ccl₄)-treated mice were established as hepatic fibrosis models and received calcitriol treatment for 6 weeks. Quantification of Sirius red staining and measurement of key fibrotic markers (collagen-1 and α-SMA) was performed to detect hepatic fibrosis. Chloroquine (CQ) treatment was used to observe autophagic flux, and 3-methyladenine (3-MA) was used to inhibit autophagy. Furthermore, the effects of calcitriol on transforming growth factor β1 (TGFβ1)-stimulated primary hepatic stellate cells (HSCs) were detected. Downregulation of Atg16l1 or vitamin D receptor (VDR) in LX-2 cells was used to explore the mechanism of action of calcitriol in fibrosis and autophagy. Additionally, the electrophoretic mobility shift assay (EMSA) was used to investigate the interactions between VDR and ATG16L1.

Results

Calcitriol increased the expression of VDR and ATG16L1, enhanced autophagy and attenuated hepatic fibrosis. 3-MA treatment and VDR silencing abolished the protective effects of calcitriol against fibrosis. Calcitriol-induced anti-fibrosis effects were blocked by ATG16L1 suppression. Furthermore, VDR bound to the ATG16L1 promoter and downregulation of VDR decreased the expression of ATG16L1 in LX-2 cells.

Conclusion

Calcitriol mitigates hepatic fibrosis partly through ATG16L1-mediated autophagy.

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骨化三醇通过自噬相关基因 16-like 1 介导的自噬作用改善肝纤维化的进展。

背景：除了维持钙和骨代谢的经典作用外，骨化三醇还有可能对抗纤维化疾病；然而，其功能机制仍不清楚。自噬相关基因 16-like 1（Atg16l1）是与自噬相关的基因之一，它参与了对纤维化疾病的保护。本研究旨在探讨自噬对抑制钙三醇诱导的肝纤维化的贡献及其潜在的分子机制：方法：以四氯化碳（Ccl4）处理的小鼠为肝纤维化模型，接受钙三醇治疗6周。天狼星红染色定量和主要纤维化标志物（胶原蛋白-1和α-SMA）的测量用于检测肝纤维化。氯喹（CQ）处理用于观察自噬通量，3-甲基腺嘌呤（3-MA）用于抑制自噬。此外，还检测了降钙素三醇对转化生长因子β1（TGFβ1）刺激的原代肝星状细胞（HSCs）的影响。研究人员利用下调LX-2细胞中的Atg16l1或维生素D受体（VDR）来探索钙三醇在纤维化和自噬中的作用机制。此外，还利用电泳迁移试验（EMSA）研究了VDR和ATG16L1之间的相互作用：结果：骨化三醇增加了VDR和ATG16L1的表达，促进了自噬，减轻了肝纤维化。3-MA处理和VDR沉默可消除钙三醇对肝纤维化的保护作用。抑制 ATG16L1 可阻断降钙三醇诱导的抗纤维化作用。此外，VDR与ATG16L1启动子结合，下调VDR可降低LX-2细胞中ATG16L1的表达：结论：骨化三醇可部分通过ATG16L1介导的自噬减轻肝纤维化。

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