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CO 结合提高了聚乙二醇化血红蛋白的结构、功能、物理和抗氧化性能。

CO binding improves the structural, functional, physical and anti-oxidation properties of the PEGylated hemoglobin.

机构信息

National Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences , Beijing , P. R. China.

出版信息

Artif Cells Nanomed Biotechnol. 2015 Feb;43(1):18-25. doi: 10.3109/21691401.2014.885444. Epub 2014 Mar 19.

DOI:10.3109/21691401.2014.885444
PMID:24641771
Abstract

CONTEXT

PEGylated hemoglobin (Hb) is a promising oxygen therapeutic agent for clinical application. However, it suffered from structural perturbation, functional instability and methemoglobin (metHb) formation.

OBJECTIVE

To improve the structural, functional, physical and anti-oxidation properties of the PEGylated Hb.

MATERIALS AND METHODS

PEGylation of Hb with CO binding (HbCO) was conducted using maleimide and acylation chemistry, respectively. Physical and chemical parameters were measured for Hb samples. The circular dichroism spectra, dynamic light scattering and analytical ultracentrifugation were used to investigate the structure and conformation of PEGylated HbCO.

RESULTS

CO binding can inhibit the autoxidation of the PEGylated Hb, structurally stabilize its tetramer and improve its thermal and pH stability. Importantly, the circular dichroism spectra showed that CO binding can decrease the structural perturbation of Hb induced by PEGylation. The PEGylated HbCO with CO release showed slightly higher oxygen-delivery capacity than the PEGylated Hb. The PEGylated HbCO did not show metHb formation after 30-day storage at 4°C.

DISCUSSION AND CONCLUSION

CO binding structurally stabilized the PEGylated Hb, abolished its metHb formation, and significantly increased its physical stability. In particular, it also avoided the perturbation of PEG chains on the heme microenvironment. The functional property of the PEGylated HbCO can be maintained during its long-term storage, which is of great significance for field transfusion.

摘要

背景

聚乙二醇化血红蛋白(Hb)是一种很有前途的临床应用氧疗剂。然而,它存在结构扰动、功能不稳定和高铁血红蛋白(metHb)形成等问题。

目的

改善聚乙二醇化 Hb 的结构、功能、物理和抗氧化性能。

材料和方法

分别使用马来酰亚胺和酰化化学将 Hb 与 CO 结合进行聚乙二醇化。测量 Hb 样品的物理化学参数。使用圆二色光谱、动态光散射和分析超速离心法研究 PEG 化 HbCO 的结构和构象。

结果

CO 结合可以抑制聚乙二醇化 Hb 的自氧化,结构上稳定其四聚体并提高其热稳定性和 pH 稳定性。重要的是,圆二色光谱表明 CO 结合可以减少聚乙二醇化引起的 Hb 结构扰动。具有 CO 释放的 PEG 化 HbCO 具有比 PEG 化 Hb 稍高的氧输送能力。PEG 化 HbCO 在 4°C 下储存 30 天后没有形成 metHb。

讨论和结论

CO 结合结构上稳定了聚乙二醇化 Hb,消除了其 metHb 形成,并显著提高了其物理稳定性。特别是,它还避免了 PEG 链对血红素微环境的干扰。PEG 化 HbCO 的功能特性在其长期储存过程中得以维持,这对于野外输血具有重要意义。

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