硝酰基类花生酸（NOAA）通过与关键半胱氨酸发生可逆的共价加合物形成来抑制蛋白质二硫键异构酶（PDI）。

Nitroarachidonic acid (NOAA) inhibits protein disulfide isomerase (PDI) through reversible covalent adduct formation with critical cysteines.

机构信息

Departamento de Bioquímica, Facultad de Medicina-Universidad de la República, Montevideo, Uruguay; Center for Free Radical and Biomedical Research, Facultad de Medicina-Universidad de la República, Montevideo, Uruguay.

Vascular Biology Laboratory, Heart Institute (InCor), University of São Paulo School of Medicine, São Paulo, Brazil.

出版信息

Biochim Biophys Acta Gen Subj. 2017 May;1861(5 Pt A):1131-1139. doi: 10.1016/j.bbagen.2017.02.013. Epub 2017 Feb 12.

DOI:10.1016/j.bbagen.2017.02.013

PMID:28215702

Abstract

BACKGROUND

Nitroarachidonic acid (NOAA) exhibits pleiotropic anti-inflammatory actions in a variety of cell types. We have recently shown that NOAA inhibits phagocytic NADPH oxidase 2 (NOX2) by preventing the formation of the active complex. Recent work indicates the participation of protein disulfide isomerase (PDI) activity in NOX2 activation. Cysteine (Cys) residues at PDI active sites could be targets for NOAA- nitroalkylation regulating PDI activity which could explain our previous observation.

METHODS

PDI reductase and chaperone activities were assessed using the insulin and GFP renaturation methods in the presence or absence of NOAA. To determine the covalent reaction with PDI as well as the site of reaction, the PEG-switch assay and LC-MS/MS studies were performed.

RESULTS AND CONCLUSIONS

We determined that both activities of PDI were inhibited by NOAA in a dose- and time- dependent manner and independent from release of nitric oxide. Since nitroalkenes are potent electrophiles and PDI has critical Cys residues for its activity, then formation of a covalent adduct between NOAA and PDI is feasible. To this end we demonstrated the reversible covalent modification of PDI by NOAA. Trypsinization of modified PDI confirmed that the Cys residues present in the active site a' of PDI were key targets accounting for nitroalkene modification.

GENERAL SIGNIFICANCE

PDI may contribute to NOX2 activation. As such, inhibition of PDI by NOAA might be involved in preventing NOX2 activation. Future work will be directed to determine if the covalent modifications observed play a role in the reported NOAA inhibition of NOX2 activity.

摘要

背景

硝基烯酸（NOAA）在多种细胞类型中表现出多种抗炎作用。我们最近表明，NOAA 通过阻止活性复合物的形成来抑制吞噬细胞 NADPH 氧化酶 2（NOX2）。最近的工作表明，蛋白二硫键异构酶（PDI）活性参与了 NOX2 的激活。PDI 活性部位的半胱氨酸（Cys）残基可能是 NOAA-亚硝基化调节 PDI 活性的靶标，这可以解释我们之前的观察结果。

方法

使用胰岛素和 GFP 复性方法，在存在或不存在 NOAA 的情况下，评估 PDI 还原酶和伴侣活性。为了确定与 PDI 的共价反应以及反应部位，进行了 PEG 转换测定和 LC-MS/MS 研究。

结果和结论

我们确定，PDI 的两种活性都被 NOAA 以剂量和时间依赖的方式抑制，且与一氧化氮的释放无关。由于亚硝烯是有效的亲电试剂，并且 PDI 具有对其活性至关重要的 Cys 残基，因此 NOAA 和 PDI 之间形成共价加合物是可行的。为此，我们证明了 NOAA 可逆地修饰 PDI。修饰后的 PDI 的胰蛋白酶消化证实，PDI 活性部位 a'中存在的 Cys 残基是关键靶标， accounts for nitroalkene modification 。

一般意义

PDI 可能有助于 NOX2 的激活。因此，NOAA 抑制 PDI 可能参与了防止 NOX2 激活。未来的工作将致力于确定观察到的共价修饰是否在报告的 NOAA 抑制 NOX2 活性中发挥作用。

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硝酰基类花生酸（NOAA）通过与关键半胱氨酸发生可逆的共价加合物形成来抑制蛋白质二硫键异构酶（PDI）。

Nitroarachidonic acid (NOAA) inhibits protein disulfide isomerase (PDI) through reversible covalent adduct formation with critical cysteines.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS AND CONCLUSIONS

GENERAL SIGNIFICANCE

背景

方法

结果和结论

一般意义

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