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酸性 pH 值促进 C-反应蛋白的氧化诱导解离。

Acidic pH promotes oxidation-induced dissociation of C-reactive protein.

机构信息

MOE Key Laboratory of Cell Activities and Stress Adaptations, School of Life Sciences, Lanzhou University, Lanzhou 730000, PR China.

The Gansu Cancer Hospital, Lanzhou 730050, PR China.

出版信息

Mol Immunol. 2018 Dec;104:47-53. doi: 10.1016/j.molimm.2018.09.021. Epub 2018 Nov 5.

DOI:10.1016/j.molimm.2018.09.021
PMID:30408622
Abstract

BACKGROUND

Circulating levels of the systemic inflammation marker C-reactive protein (CRP) have been associated with increased risk and poor outcomes of many diseases, such as cardiovascular events and cancer. Accumulating evidence has indicated that the conformational rearrangement of human pentameric CRP (pCRP) to monomeric CRP (mCRP) is a prerequisite for participation in the pathogenesis. Therefore, determining the mechanism of the dissociation of pCRP into pro-inflammatory mCRP under physiological/pathological circumstances has been intriguing.

METHODS

The effects of oxidative and acidic stress occurring in inflammation on pCRP were examined by electrophoresis, electron microscopy, protein fluorescence, neoepitope expression and endothelial cell responses.

RESULTS

Reactive oxygen species (ROS) generated by the copper-hydrogen peroxide system could rapidly induce the dissociation of CRP at mild acidic pH within four hours, but not at physiological pH of 7.4. Meanwhile, mannitol, a ROS scavenger, could not protect against dissociation, which implied that local ROS from accessible histidine residues may be crucially beneficial to the formation of mCRP in a redox-balanced microenvironment. Furthermore, mCRP generated by ROS could be reduced by DTT, which indicated the exposure of functional motif aa35-47, and showed potent proinflammatory actions on endothelial cells, comparable to mCRP generated by urea.

CONCLUSION

dissociation of pCRP to mCRP could be rapidly induced by ROS from copper- hydrogen peroxide system in dependence on mildly acidic stress regardless of a redox-balanced microenvironment.

摘要

背景

循环系统中炎症标志物 C 反应蛋白(CRP)的水平与许多疾病(如心血管事件和癌症)的风险增加和不良预后有关。越来越多的证据表明,人五聚体 CRP(pCRP)的构象重排为单体 CRP(mCRP)是参与发病机制的前提。因此,确定 pCRP 在生理/病理条件下解聚为促炎 mCRP 的机制一直是令人关注的。

方法

通过电泳、电子显微镜、蛋白质荧光、新表位表达和内皮细胞反应来检测炎症中发生的氧化和酸性应激对 pCRP 的影响。

结果

铜-过氧化氢系统产生的活性氧(ROS)可以在四小时内迅速诱导 CRP 在轻度酸性 pH 值下解离,但在生理 pH 值 7.4 下则不会。同时,ROS 清除剂甘露醇不能防止解离,这表明来自易接近组氨酸残基的局部 ROS 可能对在氧化还原平衡的微环境中形成 mCRP 至关重要。此外,ROS 生成的 mCRP 可以被 DTT 还原,这表明功能基 aa35-47 暴露,并对内皮细胞表现出强烈的促炎作用,与尿素生成的 mCRP 相当。

结论

pCRP 到 mCRP 的解离可以在不依赖于氧化还原平衡微环境的情况下,由铜-过氧化氢系统产生的 ROS 迅速诱导,并依赖于轻度酸性应激。

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