文献类型： 外文期刊

第一作者： Yuan, Feng

作者： Yuan, Feng;Liu, Hao;Yuan, Feng;Hou, Lei;Wei, Li;Quan, Rong;Wang, Jing;Liu, Jue;Hou, Lei;Liu, Jue;Hou, Lei;Liu, Jue

作者机构：

关键词： FAdV-4; LXR-alpha; activation; lipogenesis; steatosis; viral replication

期刊名称：JOURNAL OF VIROLOGY （ 影响因子：5.103； 五年影响因子：5.078 ）

ISSN： 0022-538X

年卷期： 2021 年 95 卷 6 期

页码：

收录情况： SCI

摘要： Fowl adenovirus serotype 4 (FAdV-4) is a hepatotropic virus that causes severe hepatic damage characterized by basophilic intranuclear inclusion bodies, vacuolar degeneration, and multifocal necrosis in hepatocytes. Many aspects of FAdV-4 infection and pathogenesis, however, remain unknown. Here, we found that FAdV-4-induced hepatic injury is accompanied by the accumulation of oil droplets (triglycerides) in the cytoplasm of hepatocytes, a typical indicator of steatosis, in FAdV-4-infected chickens. Significant upregulation of adipose synthesis-related genes, such as liver X receptor-alpha (LXR-alpha), peroxisome proliferator-activated receptor gamma (PPAR-gamma), and sterol regulatory element-binding protein-1c (SREBP-1c), and significant downregulation of low-density lipoprotein secretion-related genes and lipid oxidation-and lipid decomposition-related genes were observed in the infected chickens. FAdV-4 infection in cultured leghorn male hepatoma (LMH) cells caused similar signs of steatosis, with alterations in various lipogenesis-related genes. We eliminated the effect of LXR-alpha activation on FAdV-4-induced steatosis and found that treatment with an LXR-alpha antagonist (SR9243) and RNA interference (small interfering RNA targeting LXR-alpha [Si-LXR-alpha]) decreased the number of oil droplets and the accumulation of lipogenic genes, but treatment with an LXR-alpha agonist (T0901317) increased the number of oil droplets and the accumulation of lipogenic genes in the cells. Additionally, SR9243 treatment or Si-LXR-alpha transfection led to significant reductions in viral DNA level, protein expression, and virus production, whereas T0901317 treatment caused significant increases in viral DNA level, protein expression, and virus production. However, inhibition of SREBP-1c activity had no significant effect on virus production. Collectively, these results indicated that FAdV-4-induced steatosis involves activation of the LXR-alpha signaling pathway, which might be a molecular mechanism underlying the hepatic injury associated with FAdV-4 infection. IMPORTANCE Fowl adenovirus serotype 4 (FAdV-4) is an important hepatotropic adenovirus in chicken, but the underlying mechanism of FAdV-4-induced hepatic injury remains unclear. We report here that infection with FAdV-4 induced the accumulation of oil droplets (triglycerides) in the cytoplasm of hepatocytes, a typical indicator of steatosis, in the livers of chickens. FAdV-4-induced steatosis might be caused by a disrupted balance of fat metabolism, as evidenced by differential regulation of various lipase genes. The significant upregulation of liver X receptor-alpha (LXR-alpha) prompted us to investigate the interplay between LXR-alpha activation and FAdV-4-induced steatosis. Treatment with an agonist, an antagonist, or RNA interference targeting LXR-a in cultured leghorn male hepatoma (LMH) cells indicated that FAdV-4-induced steatosis was dependent upon LXR-alpha activation, which contributed to virus replication. These results provide important mechanistic insights, revealing that FAdV-4 induces hepatic steatosis by activating the LXR-alpha signaling pathway and highlighting the therapeutic potential of strategies targeting the LXR-alpha pathway for the treatment of FAdV-4 infection.

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