金属催化氧化系统对治疗性蛋白质羰基化和完整性的比较影响

Comparative Effects of Metal-Catalyzed Oxidizing Systems on Carbonylation and Integrity of Therapeutic Proteins.

作者信息

Kryndushkin Dmitry, Rao V Ashutosh

机构信息

Laboratory of Applied Biochemistry, Division of Biotechnology Products Research and Review III, Office of Biotechnology Products, Office of Pharmaceutical Quality, Center for Drug Evaluation and Research, Food and Drug Administration, Silver Spring, Maryland, 20993, USA.

出版信息

Pharm Res. 2016 Feb;33(2):526-39. doi: 10.1007/s11095-015-1807-y. Epub 2015 Oct 23.

DOI:10.1007/s11095-015-1807-y

PMID:26499343

Abstract

PURPOSE

Ascorbic acid has been considered as a potential radical scavenging excipient for pharmaceutical formulations. However, under certain circumstances, ascorbic acid can generate reactive oxygen species via redox cycling. The objective of this study was to investigate ascorbic acid-induced oxidative carbonylation of therapeutic proteins and correlate the increase in carbonylation with protein aggregation.

METHODS

An optimized ELISA for quantifying carbonyl levels was used to compare the oxidizing potentials of ascorbic acid and hydrogen peroxide by testing four pharmaceutically-relevant proteins (human serum albumin, immunoglobulin G, granulocyte-colony stimulating factor and calcitonin). Several transition metals at micromolar concentrations were evaluated for their ability to enhance ascorbic acid-induced protein carbonylation. Protein aggregation under oxidative conditions, with or without free radical scavengers, was measured by aggregate binding fluorescent dye and confirmed by microfluidic imaging.

RESULTS

Addition of ascorbic acid alone resulted in higher increases in carbonylation than addition of hydrogen peroxide. The presence of trace amounts (>75 ppb) of copper enhanced oxidative effects of ascorbic acid, whereas other tested metals did not comparably promote oxidation. During oxidation, protein destabilization indicated by loss of the full-length protein, positively correlated with the increase in protein aggregation. However, levels of aggregation did not always correlate with the levels of protein carbonylation. At comparable carbonylation levels, addition of copper produced greater protein destabilization and aggregation than addition of iron.

CONCLUSIONS

The results strongly suggest that ascorbic acid with traces of metals, especially copper, can promote therapeutic protein carbonylation and potentially aggregation. At similar carbonylation levels, some oxidative conditions may lead to greater protein destabilization than others.

摘要

目的

抗坏血酸被认为是药物制剂中一种潜在的自由基清除赋形剂。然而，在某些情况下，抗坏血酸可通过氧化还原循环产生活性氧。本研究的目的是研究抗坏血酸诱导的治疗性蛋白质氧化羰基化，并将羰基化的增加与蛋白质聚集相关联。

方法

使用一种优化的用于定量羰基水平的酶联免疫吸附测定（ELISA），通过检测四种与药学相关的蛋白质（人血清白蛋白、免疫球蛋白G、粒细胞集落刺激因子和降钙素）来比较抗坏血酸和过氧化氢的氧化潜力。评估了几种微摩尔浓度的过渡金属增强抗坏血酸诱导的蛋白质羰基化的能力。通过聚集结合荧光染料测量氧化条件下有或无自由基清除剂时的蛋白质聚集，并通过微流控成像进行确认。

结果

单独添加抗坏血酸导致的羰基化增加高于添加过氧化氢。痕量（>75 ppb）铜的存在增强了抗坏血酸的氧化作用，而其他测试金属没有同等程度地促进氧化。在氧化过程中，全长蛋白质的丧失所表明的蛋白质不稳定与蛋白质聚集的增加呈正相关。然而，聚集水平并不总是与蛋白质羰基化水平相关。在相当的羰基化水平下，添加铜比添加铁产生更大的蛋白质不稳定和聚集。

结论

结果强烈表明，含有痕量金属（尤其是铜）的抗坏血酸可促进治疗性蛋白质的羰基化并可能导致聚集。在相似的羰基化水平下，某些氧化条件可能比其他条件导致更大的蛋白质不稳定。

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金属催化氧化系统对治疗性蛋白质羰基化和完整性的比较影响

Comparative Effects of Metal-Catalyzed Oxidizing Systems on Carbonylation and Integrity of Therapeutic Proteins.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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