Britton Laurence, Jaskowski Lesley, Bridle Kim, Santrampurwala Nishreen, Reiling Janske, Musgrave Nick, Subramaniam V Nathan, Crawford Darrell
Gallipoli Medical Research Institute, Greenslopes Private Hospital, Greenslopes, Queensland, Australia The School of Medicine, University of Queensland, Herston, Queensland, Australia The Department of Gastroenterology, Princess Alexandra Hospital, Woolloongabba, Queensland, Australia QIMR Berghofer Medical Research Institute, Herston, Queensland, Australia
Gallipoli Medical Research Institute, Greenslopes Private Hospital, Greenslopes, Queensland, Australia The School of Medicine, University of Queensland, Herston, Queensland, Australia QIMR Berghofer Medical Research Institute, Herston, Queensland, Australia.
Physiol Rep. 2016 Jun;4(12). doi: 10.14814/phy2.12837.
Heterozygous mutations of the Hfe gene have been proposed as cofactors in the development and progression of nonalcoholic fatty liver disease (NAFLD). Homozygous Hfe deletion previously has been shown to lead to dysregulated hepatic lipid metabolism and accentuated liver injury in a dietary mouse model of NAFLD We sought to establish whether heterozygous deletion of Hfe is sufficient to promote liver injury when mice are exposed to a high-calorie diet (HCD). Eight-week-old wild-type and Hfe(+/-) mice received 8 weeks of a control diet or HCD Liver histology and pathways of lipid and iron metabolism were analyzed. Liver histology demonstrated that mice fed a HCD had increased NAFLD activity score (NAS), steatosis, and hepatocyte ballooning. However, liver injury was unaffected by Hfe genotype. Hepatic iron concentration (HIC) was increased in Hfe(+/-) mice of both dietary groups. HCD resulted in a hepcidin-independent reduction in HIC Hfe(+/-) mice demonstrated raised fasting serum glucose concentrations and HOMA-IR score, despite unaltered serum adiponectin concentrations. Downstream regulators of hepatic de novo lipogenesis (pAKT, SREBP-1, Fas, Scd1) and fatty acid oxidation (AdipoR2, Pparα, Cpt1) were largely unaffected by genotype. In summary, heterozygous Hfe gene deletion is associated with impaired iron and glucose metabolism. However, unlike homozygous Hfe deletion, heterozygous gene deletion did not affect lipid metabolism pathways or liver injury in this model.
Hfe基因的杂合突变被认为是非酒精性脂肪性肝病(NAFLD)发生和发展的辅助因素。先前已证明,在NAFLD饮食小鼠模型中,纯合Hfe缺失会导致肝脏脂质代谢失调和肝损伤加重。我们试图确定当小鼠暴露于高热量饮食(HCD)时,Hfe杂合缺失是否足以促进肝损伤。8周龄的野生型和Hfe(+/-)小鼠接受8周的对照饮食或HCD,分析肝脏组织学以及脂质和铁代谢途径。肝脏组织学显示,喂食HCD的小鼠NAFLD活动评分(NAS)、脂肪变性和肝细胞气球样变增加。然而,肝损伤不受Hfe基因型影响。两个饮食组的Hfe(+/-)小鼠肝铁浓度(HIC)均升高。HCD导致HIC以不依赖铁调素的方式降低。尽管血清脂联素浓度未改变,但Hfe(+/-)小鼠空腹血清葡萄糖浓度和HOMA-IR评分升高。肝脏从头脂肪生成的下游调节因子(pAKT、SREBP-1、Fas、Scd-1)和脂肪酸氧化(AdipoR2、Pparα、Cpt1)在很大程度上不受基因型影响。总之,Hfe基因杂合缺失与铁和葡萄糖代谢受损有关。然而,与纯合Hfe缺失不同,在该模型中杂合基因缺失不影响脂质代谢途径或肝损伤。
