Perinatal Research Center, Department of Pediatrics, University of Colorado Anschutz Medical Campus, Aurora, CO, United States.
Perinatal Nutrition Laboratory, Department of Pediatrics, University of Colorado Anschutz Medical Campus, Aurora, CO, United States.
Front Immunol. 2020 Nov 5;11:595282. doi: 10.3389/fimmu.2020.595282. eCollection 2020.
Selenium (Se) levels decrease in the circulation during acute inflammatory states and sepsis, and are inversely associated with morbidity and mortality. A more specific understanding of where selenoproteins and Se processing are compromised during insult is needed. We investigated the acute signaling response in selenoenzymes and Se processing machinery in multiple organs after innate immune activation in response to systemic lipopolysaccharide (LPS).
Wild type (WT) adult male C57/B6 mice were exposed to LPS (5 mg/kg, intraperitoneal). Blood, liver, lung, kidney and spleen were collected from control mice as well as 2, 4, 8, and 24 h after LPS. Plasma Se concentration was determined by ICP-MS. Liver, lung, kidney and spleen were evaluated for mRNA and protein content of selenoenzymes and proteins required to process Se.
After 8 h of endotoxemia, plasma levels of Se and the Se transporter protein, SELENOP were significantly decreased. Consistent with this timing, the transcription and protein content of several hepatic selenoenzymes, including SELENOP, glutathione peroxidase 1 and 4 were significantly decreased. Furthermore, hepatic transcription and protein content of factors required for the Se processing, including selenophosphate synthetase 2 (Sps2), phosphoseryl tRNA kinase (Pstk), selenocysteine synthase (SepsecS), and selenocysteine lyase (Scly) were significantly decreased. Significant LPS-induced downregulation of these key selenium processing enzymes was observed in isolated hepatocytes. In contrast to the acute and dynamic changes observed in the liver, selenoenzymes did not decrease in the lung, kidney or spleen.
Hepatic selenoenzyme production and Se processing factors decreased after endotoxemia. This was temporally associated with decreased circulating Se. In contrast to these active changes in the regulation of Se processing in the liver, selenoenzymes did not decrease in the lung, kidney or spleen. These findings highlight the need to further study the impact of innate immune challenges on Se processing in the liver and the impact of targeted therapeutic Se replacement strategies during innate immune challenge.
硒(Se)在急性炎症状态和败血症期间会在循环中减少,并且与发病率和死亡率呈负相关。需要更深入地了解在受到攻击时硒蛋白和 Se 处理机制在何处受到损害。我们研究了在系统性脂多糖(LPS)引发固有免疫激活后,多个器官中的硒酶和 Se 处理机制的急性信号反应。
成年雄性 C57/B6 野生型(WT)小鼠接受 LPS(5mg/kg,腹腔内)处理。从对照小鼠以及 LPS 后 2、4、8 和 24 小时收集血液、肝脏、肺、肾脏和脾脏。通过 ICP-MS 测定血浆 Se 浓度。评估肝脏、肺、肾脏和脾脏中硒酶和处理 Se 所需的蛋白质的 mRNA 和蛋白质含量。
在脓毒症 8 小时后,血浆 Se 水平和 Se 转运蛋白 SELENOP 显著降低。与这一时间一致,几种肝硒酶的转录和蛋白含量,包括 SELENOP、谷胱甘肽过氧化物酶 1 和 4,显著降低。此外,肝硒处理所需因子的转录和蛋白含量,包括硒磷酸酯合成酶 2(Sps2)、磷酸丝氨酸 tRNA 激酶(Pstk)、硒代半胱氨酸合成酶(SepsecS)和硒代半胱氨酸裂解酶(Scly),显著降低。在分离的肝细胞中观察到这些关键硒处理酶的 LPS 诱导的显著下调。与肝脏中观察到的急性和动态变化相反,肺、肾或脾中的硒酶没有减少。
内毒素血症后,肝硒酶的产生和 Se 处理因子减少。这与循环 Se 的减少在时间上相关。与肝脏中 Se 处理调节的这些活跃变化相反,肺、肾或脾中的硒酶没有减少。这些发现强调了需要进一步研究固有免疫挑战对肝脏中 Se 处理的影响,以及在固有免疫挑战期间靶向治疗性 Se 替代策略的影响。
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