McCullough Rebecca L, Saikia Paramananda, Pollard Katherine A, McMullen Megan R, Nagy Laura E, Roychowdhury Sanjoy
Department of Pathobiology, Center for Liver Disease Research, Cleveland Clinic, Cleveland, OH, USA.
Gene Expr. 2016;17(1):61-77. doi: 10.3727/105221616X691730. Epub 2016 Jun 9.
Proinflammatory activity of hepatic macrophages plays a key role during progression of alcoholic liver disease (ALD). Since mixed lineage kinase 3 (MLK3)-dependent phosphorylation of JNK is involved in the activation of macrophages, we tested the hypothesis that myeloid MLK3 contributes to chronic ethanol-induced inflammatory responses in liver, leading to hepatocyte injury and cell death. Primary cultures of Kupffer cells, as well in vivo chronic ethanol feeding, were used to interrogate the role of MLK3 in the progression of liver injury. Phosphorylation of MLK3 was increased in primary cultures of Kupffer cells isolated from ethanol-fed rats compared to cells from pair-fed rats. Kupffer cells from ethanol-fed rats were more sensitive to LPS-stimulated cytokine production; this sensitization was normalized by pharmacological inhibition of MLK3. Chronic ethanol feeding to mice increased MLK3 phosphorylation robustly in F4/80(+) Kupffer cells, as well as in isolated nonparenchymal cells. MLK3(-/-) mice were protected from chronic ethanol-induced phosphorylation of MLK3 and JNK, as well as multiple indicators of liver injury, including increased ALT/AST, inflammatory cytokines, and induction of RIP3. However, ethanol-induced steatosis and hepatocyte apoptosis were not affected by MLK3. Finally, chimeric mice lacking MLK3 only in myeloid cells were also protected from chronic ethanol-induced phosphorylation of JNK, expression of inflammatory cytokines, and increased ALT/AST. MLK3 expression in myeloid cells contributes to phosphorylation of JNK, increased cytokine production, and hepatocyte injury in response to chronic ethanol. Our data suggest that myeloid MLK3 could be targeted for developing potential therapeutic strategies to suppress liver injury in ALD patients.
肝巨噬细胞的促炎活性在酒精性肝病(ALD)进展过程中起关键作用。由于JNK的混合谱系激酶3(MLK3)依赖性磷酸化参与巨噬细胞的激活,我们测试了以下假设:骨髓MLK3促成肝脏中慢性乙醇诱导的炎症反应,导致肝细胞损伤和细胞死亡。使用库普弗细胞的原代培养物以及体内慢性乙醇喂养来探究MLK3在肝损伤进展中的作用。与来自配对喂养大鼠的细胞相比,从乙醇喂养大鼠分离的库普弗细胞原代培养物中MLK3的磷酸化增加。来自乙醇喂养大鼠的库普弗细胞对LPS刺激的细胞因子产生更敏感;这种敏感性通过MLK3的药理学抑制得以恢复正常。对小鼠进行慢性乙醇喂养可使F4/80(+)库普弗细胞以及分离的非实质细胞中MLK3的磷酸化显著增加。MLK3(-/-)小鼠免受慢性乙醇诱导的MLK3和JNK磷酸化以及多种肝损伤指标的影响,这些指标包括ALT/AST升高、炎性细胞因子以及RIP3的诱导。然而,乙醇诱导的脂肪变性和肝细胞凋亡不受MLK3影响。最后,仅在骨髓细胞中缺乏MLK3的嵌合小鼠也免受慢性乙醇诱导的JNK磷酸化、炎性细胞因子表达以及ALT/AST升高的影响。骨髓细胞中MLK3的表达促成JNK磷酸化、细胞因子产生增加以及对慢性乙醇的肝细胞损伤。我们的数据表明,骨髓MLK3可作为开发潜在治疗策略的靶点,以抑制ALD患者的肝损伤。