Periostin promotes liver steatosis and hypertriglyceridemia through downregulation of PPARα
Yan Lu, … , Guang Ning, Xiaoying Li
Yan Lu, … , Guang Ning, Xiaoying Li
Published July 8, 2014
Citation Information: J Clin Invest. 2014;124(8):3501-3513. https://doi.org/10.1172/JCI74438.
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Research Article Hepatology

Periostin promotes liver steatosis and hypertriglyceridemia through downregulation of PPARα

Abstract

Hepatosteatosis is characterized by an aberrant accumulation of triglycerides in the liver; however, the factors that drive obesity-induced fatty liver remain largely unknown. Here, we demonstrated that the secreted cell adhesion protein periostin is markedly upregulated in livers of obese rodents and humans. Notably, overexpression of periostin in the livers of WT mice promoted hepatic steatosis and hypertriglyceridemia. Conversely, both genetic ablation of periostin and administration of a periostin-neutralizing antibody dramatically improved hepatosteatosis and hypertriglyceridemia in obese mice. Overexpression of periostin resulted in reduced expression of peroxisome proliferator–activated receptor α (PPARα), a master regulator of fatty acid oxidation, and activation of the JNK signaling pathway. In mouse primary hepatocytes, inhibition of α6β4 integrin prevented activation of JNK and suppression of PPARα in response to periostin. Periostin-dependent activation of JNK resulted in activation of c-Jun, which prevented RORα binding and transactional activation at the Ppara promoter. Together, these results identify a periostin-dependent pathway that mediates obesity-induced hepatosteatosis.

Authors

Yan Lu, Xing Liu, Yang Jiao, Xuelian Xiong, E Wang, Xiaolin Wang, Zhijian Zhang, Huijie Zhang, Lingling Pan, Youfei Guan, Dongsheng Cai, Guang Ning, Xiaoying Li

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Figure 6

Periostin deficiency improves hepatosteatosis in obese mice.

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Periostin deficiency improves hepatosteatosis in obese mice. (A) Hepatic...
(A) Hepatic Postn mRNA and periostin protein levels in db/db mice. Mice were administered with 2 adenoviral shRNAs targeting Postn (P1 and P2) or a negative control (NC) via tail vain injection (n = 5). (B) Hepatic TG content in db/db mice. (C) Representative hepatic histology by H&E and Oil Red O staining from db/db mice. Original magnification, ×200. (D and E) Serum TG (D) and β-hydroxybutyrate (E) levels in db/db mice. (F) Phosphorylated JNK and c-Jun were determined in db/db mice with Postn knockdown or controls. (G) mRNA levels of fatty acid oxidation–related genes in mice as in F. *P < 0.05, **P < 0.01, ***P < 0.001.