Quantitation of polysorbate 80 in recombinant protein formulation using high-performance liquid chromatography

A. D. Askretkov, D. Shatalov, N. Orlova, D. Zybin, V. V. Nikolaeva, A. Klishin, E. S. Tuzova, D. Minenkov, S. Kedik, Y. Seregin
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Abstract

Objectives. Polysorbate 80 (PS80) quantification in biopharmaceutical products has always been challenging owing to its minute content, absorption to the protein backbone, lack of specific chromophoric PS80 groups, and heterogenic nature. This work is aimed at developing an express method for PS80 analysis in biopharmaceutical products using hydrolysis and subsequent highperformance liquid chromatography analysis with ultraviolet detection that does not consume substantial amounts of sample (≥35 μL).Methods. Five therapeutic protein formulations were chosen as model proteins. Alkaline hydrolysis formulation was applied, without protein precipitation and with a range of precipitation techniques to remove protein from the test solution and hydrolyze PS80, to free fatty acids. The obtained hydrolysate was analyzed using reverse-phase high-performance liquid chromatography.Results. As a result of the high protein content of monoclonal antibody formulations, preliminary protein removal was required, which was achieved by precipitation with organic solvents. A specific precipitant ethanol–isopropanol mixture (1:1 volumetric ratio) was developed to efficiently remove antibodies while keeping PS80 in the solution. The PS80 quantification method was developed for monoclonal antibody drugs. For three monoclonal antibody drug products (adalimumab, infliximab, and eculizumab), method validation was performed according to the International Council for Harmonization of Technical Requirements for Pharmaceuticals for Human Use, the United States Pharmacopeia, and the State Pharmacopeia of the Russian Federation guidelines.Conclusions. The optimal assay conditions for each group of recombinant monoclonal antibody substances were chosen. Protein precipitation with ethanol or ethanol–isopropanol mixtures before hydrolysis was introduced, allowing for a substantial reduction of sample to 35 μL or even less if PS80 content is higher than 0.05 mg/mL. Accelerated hydrolysis (90 min) is preferable to slow hydrolysis (4–18 h). Method validation for protein products such as adalimumab, infliximab, and eculizumab was demonstrated for the first time. Both methods were validated for each drug product. The coefficients of variation for method specificity and high precision were ≤6.0% for 3 analyses. The accuracy of the methods ranged from 96% to 109% for all of the tested drug products.
高效液相色谱法测定重组蛋白制剂中聚山梨酸80的含量
目标。聚山梨酯80 (PS80)在生物制药产品中的定量一直是具有挑战性的,因为它的含量极低,被蛋白质主干吸收,缺乏特异性的PS80基团,并且具有异质性。本工作旨在建立一种不消耗大量样品(≥35 μL)的快速分析方法,利用水解和随后的高效液相色谱分析和紫外检测来分析生物制药产品中的PS80。选择5种治疗蛋白配方作为模型蛋白。使用碱性水解配方,不沉淀蛋白质,并使用一系列沉淀技术从测试溶液中去除蛋白质并水解PS80,以获得游离脂肪酸。所得水解液采用反相高效液相色谱法进行分析。由于单克隆抗体配方的蛋白质含量高,需要初步去除蛋白质,这是通过有机溶剂沉淀实现的。开发了一种特定沉淀剂乙醇-异丙醇混合物(1:1体积比),在保持PS80在溶液中的同时有效地去除抗体。建立了单克隆抗体药物的PS80定量方法。对于三种单克隆抗体药物产品(阿达木单抗、英夫利昔单抗和eculizumab),根据国际人用药品技术要求协调委员会、美国药典和俄罗斯联邦国家药典指南进行方法验证。选择每组重组单克隆抗体物质的最佳检测条件。在水解前用乙醇或乙醇-异丙醇混合物沉淀蛋白质,如果PS80含量高于0.05 mg/mL,则可以将样品大量减少至35 μL甚至更少。加速水解(90分钟)优于缓慢水解(4-18小时)。首次证明了蛋白质产品(如阿达木单抗,英夫利昔单抗和eculizumab)的方法验证。两种方法都对每种药品进行了验证。3项分析的方法特异性和精密度变异系数≤6.0%。该方法对所有被测药品的准确度为96%至109%。
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