Department of Pathology, University of Illinois Chicago, Chicago, Illinois.
Department of Pathology, University of Illinois Chicago, Chicago, Illinois; Department of Medicine, Division of Gastroenterology and Hepatology, University of Illinois Chicago, Chicago, Illinois; Research & Development Service, Jesse Brown Veterans Affairs Medical Center, Chicago, Illinois.
Cell Mol Gastroenterol Hepatol. 2024;18(3):101362. doi: 10.1016/j.jcmgh.2024.05.010. Epub 2024 May 23.
BACKGROUND & AIMS: There is limited information on how the liver-to-gut axis contributes to alcohol-associated liver disease (AALD). We previously identified that high-mobility group box-1 (HMGB1) undergoes oxidation in hepatocytes and demonstrated elevated serum levels of oxidized HMGB1 ([O] HMGB1) in alcoholic patients. Since interleukin-1 beta (IL-1B) increases in AALD, we hypothesized hepatocyte-derived [O] HMGB1 could interact with IL-1B to activate a pro-inflammatory program that, besides being detrimental to the liver, drives intestinal barrier dysfunction.
Alcohol-fed Rage mice exhibited decreased nuclear factor kappa B signaling, a pro-inflammatory signature, and reduced total intestinal permeability, resulting in protection from AALD. In addition, [O] HMGB1 bound and signaled through the receptor for advanced-glycation end-products (RAGE) in myeloid cells, driving hepatic inflammation, intestinal permeability, and increased portal blood lipopolysaccharide in AALD. We identified that [O] HMGB1 formed a complex with IL-1B, which was found in the livers of patients with acute alcoholic hepatitis and mice with AALD. This complex originated from the liver, because it was absent in the intestine when hepatocytes did not produce [O] HMGB1. Mechanistically, the complex bound RAGE in Kupffer cells and macrophages induced a pro-inflammatory program. Moreover, it bound RAGE in intestinal macrophages and epithelial cells, leading to intestinal inflammation, altered intestinal epithelial cell tight junction protein expression, increased intestinal permeability, and elevated portal blood lipopolysaccharide, enhancing AALD pathogenesis.
We identified a protein complex of liver origin that amplifies the pro-inflammatory feedback loop in AALD; therefore, targeting this complex could have significant therapeutic potential.
关于肝肠轴如何导致酒精相关性肝病(AALD),相关信息有限。我们之前发现,高迁移率族蛋白 B1(HMGB1)在肝细胞中发生氧化,并在酒精性患者中表现出氧化型 HMGB1([O]HMGB1)血清水平升高。由于白细胞介素-1β(IL-1β)在 AALD 中增加,我们假设肝细胞源性 [O]HMGB1 可以与 IL-1β相互作用,激活促炎程序,除了对肝脏有害外,还会导致肠道屏障功能障碍。
酒精喂养的 Rage 小鼠表现出核因子 kappa B 信号转导减少、促炎特征减少和总肠道通透性降低,从而防止 AALD。此外,[O]HMGB1 在髓样细胞中与晚期糖基化终产物受体(RAGE)结合并发出信号,导致肝炎症、肠道通透性增加和门静脉血内毒素增加在 AALD 中。我们发现 [O]HMGB1 与 IL-1β 形成复合物,在急性酒精性肝炎患者和 AALD 小鼠的肝脏中均有发现。该复合物源自肝脏,因为当肝细胞不产生 [O]HMGB1 时,它不存在于肠道中。从机制上讲,该复合物在库普弗细胞和巨噬细胞中与 RAGE 结合,诱导促炎程序。此外,它在肠道巨噬细胞和上皮细胞中与 RAGE 结合,导致肠道炎症、改变肠道上皮细胞紧密连接蛋白表达、增加肠道通透性和门静脉血内毒素升高,从而增强 AALD 发病机制。
我们鉴定了一种源自肝脏的蛋白复合物,该复合物可放大 AALD 中的促炎反馈环;因此,靶向该复合物可能具有重要的治疗潜力。
