Bykov Igor, Junnikkala Sami, Pekna Marcela, Lindros Kai O, Meri Seppo
National Public Health Institute, Department of Mental Health and Alcohol Research, and Department of Bacteriology and Immunology, Helsinki University Central Hospital, Finland.
Ann Med. 2006;38(4):280-6. doi: 10.1080/07853890600664608.
It is becoming increasingly clear that liver steatosis, a typical early consequence of alcohol exposure, sensitizes the liver to more severe inflammatory and fibrotic changes. On the other hand, activation of the key complement component C3, a central player in causing inflammation and tissue damage, is also known to be involved in the regulation of lipid metabolism. This prompted us to study the development of alcoholic liver steatosis in mice lacking C3 (C3-/-).
Both C3-/- and normal C3+/+ mice were fed a steatosis-promoting high-fat diet with or without ethanol for 6 weeks. The diet without ethanol caused moderate liver steatosis in C3-/- but not in C3+/+ mice. As expected, ethanol-containing diet caused marked macrovesicular steatosis and increased the liver triglyceride content in C3+/+ mice. In contrast, ethanol diet tended to reduce steatosis and had no further effect on liver triglycerides in C3-/- mice. Furthermore, while in normal mice ethanol significantly increased the liver/body weight ratio, liver malondialdehyde level and serum alanine aminotransferase (ALT) activity, these effects were absent or small in C3-/- mice. A separate experiment with mice on chow diet confirmed the aberrant steatotic effect of ethanol in C3-/-mice: 4 hours after acute dosing of ethanol the liver triglyceride level had increased by 138% in C3+/+ mice (P<0.001), but only by 64% in C3-/- mice (n.s.).
In C3-/- mice alcohol-induced liver steatosis is absent or strongly reduced after chronic or acute alcohol exposure. This suggests that the complement system and its component C3 contribute to the development of alcohol-induced fatty liver and its consequences.
越来越清楚的是,肝脂肪变性作为酒精暴露的典型早期后果,会使肝脏对更严重的炎症和纤维化变化敏感。另一方面,关键补体成分C3的激活是导致炎症和组织损伤的核心因素,也已知参与脂质代谢的调节。这促使我们研究缺乏C3(C3 - / -)的小鼠中酒精性肝脂肪变性的发展情况。
C3 - / -小鼠和正常C3 + / +小鼠均喂食促进脂肪变性的高脂饮食,添加或不添加乙醇,持续6周。不含乙醇的饮食在C3 - / -小鼠中引起中度肝脂肪变性,而在C3 + / +小鼠中未引起。正如预期的那样,含乙醇的饮食在C3 + / +小鼠中引起明显的大泡性脂肪变性并增加肝脏甘油三酯含量。相比之下,乙醇饮食倾向于减轻C3 - / -小鼠的脂肪变性,并且对肝脏甘油三酯没有进一步影响。此外,在正常小鼠中,乙醇显著增加肝脏/体重比、肝脏丙二醛水平和血清丙氨酸转氨酶(ALT)活性,而这些效应在C3 - / -小鼠中不存在或很小。一项对正常饮食小鼠的单独实验证实了乙醇对C3 - / -小鼠的异常脂肪变性作用:急性给予乙醇4小时后,C3 + / +小鼠的肝脏甘油三酯水平增加了138%(P < 0.001),而在C3 - / -小鼠中仅增加了64%(无显著性差异)。
在C3 - / -小鼠中,慢性或急性酒精暴露后酒精诱导的肝脂肪变性不存在或显著减轻。这表明补体系统及其成分C3有助于酒精性脂肪肝的发展及其后果。
