Vascular Biology Center, Medical College of Georgia, Augusta University, Augusta, Georgia, United States.
Department of Medicine, Medical College of Georgia, Augusta University, Augusta, Georgia, United States.
Am J Physiol Gastrointest Liver Physiol. 2024 Mar 1;326(3):G264-G273. doi: 10.1152/ajpgi.00153.2023. Epub 2024 Jan 23.
Exercise as a lifestyle modification is a frontline therapy for nonalcoholic fatty liver disease (NAFLD), but how components of exercise attenuate steatosis is unclear. To uncouple the effect of increased muscle mass from weight loss in obesity, myostatin knockout mice were bred on a lean and obese background. Myostatin deletion increases gastrocnemius (Gastrocn.) mass and reduces hepatic steatosis and hepatic sterol regulatory element binding protein 1 () expression in obese mice, with no impact on adiposity or body weight. Interestingly, hypermuscularity reduces hepatic NADPH oxidase 1 () expression but not NADPH oxidase 4 () in mice. To evaluate a deterministic function of on steatosis, knockout mice were bred on a lean and background. NOX1 deletion significantly attenuates hepatic oxidant stress, steatosis, and programming in obese mice to parallel hypermuscularity, with no improvement in adiposity, glucose control, or hypertriglyceridemia to suggest off-target effects. Directly assessing the role of NOX1 on SREBP1, insulin (Ins)-mediated expression was significantly increased in either NOX1, NADPH oxidase organizer 1 (NOXO1), and NADPH oxidase activator 1 (NOXA1) or NOX5-transfected HepG2 cells versus ?-galactosidase control virus, indicating superoxide is the key mechanistic agent for the actions of NOX1 on . Metabolic Nox1 regulators were evaluated using physiological, genetic, and diet-induced animal models that modulated upstream glucose and insulin signaling, identifying hyperinsulinemia as the key metabolic derangement explaining Nox1-induced steatosis in obesity. GEO data revealed that hepatic NOX1 predicts steatosis in obese humans with biopsy-proven NAFLD. Taken together, these data suggest that hypermuscularity attenuates expression in mice through a NOX1-dependent mechanism. This study documents a novel mechanism by which changes in body composition, notably increased muscle mass, protect against fatty liver disease. This mechanism involves NADPH oxidase 1 (NOX1), an enzyme that increases superoxide and increases insulin signaling, leading to increased fat accumulation in the liver. NOX1 may represent a new early target for preventing fatty liver to stave off later liver diseases such as cirrhosis or liver cancer.
运动作为一种生活方式的改变是非酒精性脂肪性肝病 (NAFLD) 的一线治疗方法,但运动的哪些成分能减轻脂肪变性尚不清楚。为了将肥胖中肌肉质量增加的效应与体重减轻分开,肌生成抑制素敲除 (Mstn-/-) 小鼠在瘦型和肥胖型背景下进行繁殖。Mstn 缺失增加了腓肠肌 (Gastrocn.) 质量,减少了肥胖小鼠的肝脂肪变性和肝固醇调节元件结合蛋白 1 (SREBP1) 的表达,而对肥胖或体重没有影响。有趣的是,肌肉肥大减少了 小鼠的肝 NADPH 氧化酶 1 (NOX1) 表达,但不减少 NADPH 氧化酶 4 (NOX4)。为了评估 在脂肪变性中的确定性作用,将 敲除 (KO) 小鼠在瘦型和 背景下繁殖。NOX1 缺失显著减弱了肥胖小鼠的肝氧化应激、脂肪变性和 SREBP1 编程,与肌肉肥大平行,而对肥胖、葡萄糖控制或高甘油三酯血症没有改善,提示存在非靶点效应。直接评估 NOX1 对 SREBP1 的作用,在过表达 NOX1、NADPH 氧化酶组织者 1 (NOXO1) 和 NADPH 氧化酶激活剂 1 (NOXA1) 或 NOX5 的 HepG2 细胞中,胰岛素 (Ins) 介导的 表达显著增加,而?-半乳糖苷酶对照病毒表明超氧阴离子是 NOX1 对 作用的关键机制性物质。使用调节上游葡萄糖和胰岛素信号的生理、遗传和饮食诱导的动物模型评估代谢性 Nox1 调节剂,发现高胰岛素血症是解释肥胖中 Nox1 诱导的脂肪变性的关键代谢紊乱。GEO 数据显示,肝 NOX1 可预测肥胖伴有活检证实的非酒精性脂肪性肝病患者的脂肪变性。总之,这些数据表明,肌肉肥大通过依赖于 NOX1 的机制减弱了 肥胖小鼠中的表达。这项研究证明了一种新的机制,即身体成分的变化,特别是肌肉质量的增加,可防止脂肪性肝病。这种机制涉及 NADPH 氧化酶 1 (NOX1),一种增加超氧阴离子并增加胰岛素信号的酶,导致肝脏脂肪堆积增加。NOX1 可能代表预防脂肪性肝病以避免肝硬化或肝癌等晚期肝病的一个新的早期靶标。
