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一氧化氮激活烧伤后 Akt1/PKBα 激酶环中的域内二硫键形成。

Nitric oxide activates intradomain disulfide bond formation in the kinase loop of Akt1/PKBα after burn injury.

机构信息

Surgical Service, Massachusetts General Hospital, Boston, MA, USA.

出版信息

Int J Mol Med. 2013 Mar;31(3):740-50. doi: 10.3892/ijmm.2013.1241. Epub 2013 Jan 11.

DOI:10.3892/ijmm.2013.1241
PMID:23314241
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3597556/
Abstract

Severe burn injury is an acute inflammatory state with massive alterations in gene expression and levels of growth factors, cytokines and free radicals. During the catabolic processes, changes in insulin sensitivity and skeletal muscle wasting (unintended loss of 5-15% of lean body mass) are observed clinically. Here, we reveal a novel molecular mechanism of Akt1/protein kinase Bα (Akt1/PKBα) regulated via cross-talking between dephosphorylation of Thr308 and S-nitrosylation of Cys296 post severe burn injury, which were characterized using nano-LC interfaced with tandem quadrupole time-of-fight mass spectrometry (Q-TOF)micro tandem mass spectrometry in both in vitro and in vivo studies. For the in vitro studies, Akt1/PKBα was S-nitrosylated with S-nitrosoglutathione and derivatized by three methods. The derivatives were isolated by SDS-PAGE, trypsinized and analyzed by the tandem MS. For the in vivo studies, Akt1/PKBα in muscle lysates from burned rats was immunoprecipitated, derivatized with HPDP-Biotin and analyzed as above. The studies demonstrated that the NO free radical reacts with the free thiol of Cys296 to produce a Cys296-SNO intermediate which accelerates interaction with Cys310 to form Cys296-Cys310 in the kinase loop. MS/MS sequence analysis indicated that the dipeptide, linked via Cys296-Cys310, underwent dephosphorylation at Thr308. These effects were not observed in lysates from sham animals. As a result of this dual effect of burn injury, the loose conformation that is slightly stabilized by the Lys297-Thr308 salt bridge may be replaced by a more rigid structure which may block substrate access. Together with the findings of our previous report concerning mild IRS-1 integrity changes post burn, it is reasonable to conclude that the impaired Akt1/PKBα has a major impact on FOXO3 subcellular distribution and activities.

摘要

严重烧伤是一种急性炎症状态,其基因表达和生长因子、细胞因子和自由基水平发生大量改变。在分解代谢过程中,临床上观察到胰岛素敏感性和骨骼肌消耗(瘦体重意外损失 5-15%)的变化。在这里,我们揭示了一种新的分子机制,即 Akt1/蛋白激酶 Bα(Akt1/PKBα)通过严重烧伤后 Thr308 去磷酸化和 Cys296 的 S-亚硝基化之间的交叉对话进行调节,这在体外和体内研究中均使用纳米 LC 与串联四极杆飞行时间质谱(Q-TOF)微串联质谱进行了表征。对于体外研究,使用 S-亚硝基谷胱甘肽使 Akt1/PKBα发生 S-亚硝基化,并通过三种方法进行衍生化。衍生物通过 SDS-PAGE 分离,胰蛋白酶消化,并通过串联 MS 进行分析。对于体内研究,从烧伤大鼠的肌肉裂解物中免疫沉淀 Akt1/PKBα,用 HPDP-Biotin 衍生化,并如上所述进行分析。研究表明,NO 自由基与 Cys296 的游离巯基反应生成 Cys296-SNO 中间体,该中间体加速与 Cys310 相互作用,在激酶环中形成 Cys296-Cys310。MS/MS 序列分析表明,通过 Cys296-Cys310 连接的二肽在 Thr308 处发生去磷酸化。这些效应在来自假手术动物的裂解物中没有观察到。由于烧伤的这种双重影响,由 Lys297-Thr308 盐桥略微稳定的松散构象可能被更刚性的结构取代,这可能阻止底物进入。结合我们之前关于烧伤后 IRS-1 完整性轻微改变的报告中的发现,可以合理地得出结论,受损的 Akt1/PKBα对 FOXO3 亚细胞分布和活性有重大影响。

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