慢性尼古丁暴露通过转录激活 p66shc 增强肾脏氧化应激和损伤。
Chronic nicotine exposure augments renal oxidative stress and injury through transcriptional activation of p66shc.
机构信息
Division of Pediatric Nephrology, Department of Pediatrics, University of Mississippi Medical Center, Jackson, MS, USA.
出版信息
Nephrol Dial Transplant. 2013 Jun;28(6):1417-25. doi: 10.1093/ndt/gfs596. Epub 2013 Jan 16.
BACKGROUND
Chronic nicotine (Ch-NIC) exposure exacerbates ischemia/reperfusion (I/R)-induced oxidative stress and acute kidney injury (AKI), and mitochondrial production of reactive oxygen species (ROS) in cultured renal proximal tubule cells (RPTCs). Because Ser36-phosphorylated p66shc modulates mitochondrial ROS production and injury of RPTCs, we hypothesized that Ch-NIC exacerbates AKI by increasing stress-induced phosphorylation of p66shc.
METHODS
We first tested whether Ch-NIC augments I/R-AKI-induced expression and phosphorylation of p66shc in vivo. We then examined whether knocking down p66shc, or impairing its Ser36 phosphorylation or binding to cytochrome c, alters the effects of Ch-NIC on oxidative stress (H₂O₂)-induced production of ROS, mitochondrial depolarization and injury in RPTCs in vitro.
RESULTS
We found that Ch-NIC increased the expression of p66shc in the control and ischemic kidneys, but only increased its Ser36 phosphorylation after renal I/R. Knocking down p66shc or impairing phosphorylation of its Ser36 residue, via the S36A mutation (but not the phosphomimetic S36D mutation), blunted Ch-NIC + H2O2-dependent ROS production, mitochondrial depolarization and injury in RPTCs. Additionally, Ch-NIC + H2O2-dependent binding of p66shc to mitochondrial cytochrome c was attenuated by S36A mutation of p66shc, and impairing cytochrome c binding (via W134F mutation) abolished ROS production, mitochondrial depolarization and injury, while ectopic overexpression of p66shc (which mimics Ch-NIC treatment) augmented oxidant injury. We determined that Ch-NIC stimulates the p66shc promoter through p53- and epigenetic modification (promoter hypomethylation).
CONCLUSIONS
Ch-NIC worsens oxidative stress-dependent acute renal injury by increasing expression and consequent oxidative stress-dependent Ser36 phosphorylation of p66shc. Thus, targeting this pathway may have therapeutic relevance in preventing/ameliorating tobacco-related kidney injury.
背景
慢性尼古丁(Ch-NIC)暴露可加重缺血/再灌注(I/R)引起的氧化应激和急性肾损伤(AKI),并增加培养的肾近端小管细胞(RPTC)中线粒体活性氧(ROS)的产生。由于 Ser36 磷酸化的 p66shc 调节 RPTC 中线粒体 ROS 的产生和损伤,因此我们假设 Ch-NIC 通过增加应激诱导的 p66shc 磷酸化来加重 AKI。
方法
我们首先测试了 Ch-NIC 是否在体内增强 I/R-AKI 诱导的 p66shc 表达和磷酸化。然后,我们研究了敲低 p66shc 或使其 Ser36 磷酸化或与细胞色素 c 结合受损是否会改变 Ch-NIC 对 RPTC 中氧化应激(H₂O₂)诱导的 ROS 产生、线粒体去极化和损伤的影响。
结果
我们发现 Ch-NIC 增加了对照和缺血肾脏中 p66shc 的表达,但仅在肾 I/R 后增加其 Ser36 磷酸化。通过 S36A 突变(而非磷酸模拟 S36D 突变)敲低 p66shc 或使其 Ser36 残基磷酸化受损,可减弱 Ch-NIC+H2O2 依赖性 ROS 产生、线粒体去极化和 RPTC 损伤。此外,Ch-NIC+H2O2 依赖性 p66shc 与线粒体细胞色素 c 的结合通过 p66shc 的 S36A 突变而减弱,而细胞色素 c 结合受损(通过 W134F 突变)则消除了 ROS 产生、线粒体去极化和损伤,而 p66shc 的异位过表达(模拟 Ch-NIC 处理)则加剧了氧化剂损伤。我们确定 Ch-NIC 通过 p53 和表观遗传修饰(启动子低甲基化)刺激 p66shc 启动子。
结论
Ch-NIC 通过增加 p66shc 的表达及其随后的氧化应激依赖性 Ser36 磷酸化,加重依赖于氧化应激的急性肾损伤。因此,靶向该途径可能对预防/改善烟草相关的肾脏损伤具有治疗意义。
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