McCommis Kyle S, Hodges Wesley T, Brunt Elizabeth M, Nalbantoglu Ilke, McDonald William G, Holley Christopher, Fujiwara Hideji, Schaffer Jean E, Colca Jerry R, Finck Brian N
Departments of Medicine, Washington University School of Medicine, St. Louis, MO.
Pathology and Immunology, Washington University School of Medicine, St. Louis, MO.
Hepatology. 2017 May;65(5):1543-1556. doi: 10.1002/hep.29025. Epub 2017 Mar 30.
Diseases of the liver related to metabolic syndrome have emerged as the most common and undertreated hepatic ailments. The cause of nonalcoholic fatty liver disease is the aberrant accumulation of lipid in hepatocytes, though the mechanisms whereby this leads to hepatocyte dysfunction, death, and hepatic fibrosis are still unclear. Insulin-sensitizing thiazolidinediones have shown efficacy in treating nonalcoholic steatohepatitis (NASH), but their widespread use is constrained by dose-limiting side effects thought to be due to activation of the peroxisome proliferator-activated receptor γ. We sought to determine whether a next-generation thiazolidinedione with markedly diminished ability to activate peroxisome proliferator-activated receptor γ (MSDC-0602) would retain its efficacy for treating NASH in a rodent model. We also determined whether some or all of these beneficial effects would be mediated through an inhibitory interaction with the mitochondrial pyruvate carrier 2 (MPC2), which was recently identified as a mitochondrial binding site for thiazolidinediones, including MSDC-0602. We found that MSDC-0602 prevented and reversed liver fibrosis and suppressed expression of markers of stellate cell activation in livers of mice fed a diet rich in trans-fatty acids, fructose, and cholesterol. Moreover, mice with liver-specific deletion of MPC2 were protected from development of NASH on this diet. Finally, MSDC-0602 directly reduced hepatic stellate cell activation in vitro, and MSDC-0602 treatment or hepatocyte MPC2 deletion also limited stellate cell activation indirectly by affecting secretion of exosomes from hepatocytes.
Collectively, these data demonstrate the effectiveness of MSDC-0602 for attenuating NASH in a rodent model and suggest that targeting hepatic MPC2 may be an effective strategy for pharmacologic development. (Hepatology 2017;65:1543-1556).
与代谢综合征相关的肝脏疾病已成为最常见且治疗不足的肝脏疾病。非酒精性脂肪性肝病的病因是肝细胞内脂质异常蓄积,但其导致肝细胞功能障碍、死亡及肝纤维化的机制仍不清楚。胰岛素增敏剂噻唑烷二酮类药物已显示出治疗非酒精性脂肪性肝炎(NASH)的疗效,但其广泛应用受到剂量限制性副作用的限制,这些副作用被认为是由于过氧化物酶体增殖物激活受体γ的激活所致。我们试图确定一种激活过氧化物酶体增殖物激活受体γ能力明显降低的新一代噻唑烷二酮类药物(MSDC-0602)在啮齿动物模型中是否仍保留其治疗NASH的疗效。我们还确定这些有益作用中的部分或全部是否通过与线粒体丙酮酸载体2(MPC2)的抑制性相互作用介导,MPC2最近被确定为包括MSDC-0602在内的噻唑烷二酮类药物的线粒体结合位点。我们发现,MSDC-0602可预防和逆转肝纤维化,并抑制喂食富含反式脂肪酸、果糖和胆固醇饮食的小鼠肝脏中星状细胞激活标志物的表达。此外,肝脏特异性缺失MPC2的小鼠在此饮食条件下可免受NASH的发生。最后,MSDC-0602在体外可直接降低肝星状细胞的激活,MSDC-0602治疗或肝细胞MPC2缺失也可通过影响肝细胞外泌体的分泌间接限制星状细胞的激活。
总体而言,这些数据证明了MSDC-0602在啮齿动物模型中减轻NASH的有效性,并表明靶向肝脏MPC2可能是药物研发的有效策略。(《肝脏病学》2017年;65:1543 - 1556)
