Institute of Pharmaceutical Analysis, College of Pharmacy, Jinan University, Guangzhou, 510632, China; Laboratory for the Analysis of Medicines (LAM), Department of Pharmacy, CIRM, University of Liege, Avenue Hippocrate 15, B36 Tour 4 +3, 4000, Liège, Belgium.
Institute of Pharmaceutical Analysis, College of Pharmacy, Jinan University, Guangzhou, 510632, China.
Anal Chim Acta. 2022 Sep 8;1225:340199. doi: 10.1016/j.aca.2022.340199. Epub 2022 Jul 31.
Degradation analysis of therapeutic mAb is of high interest for critical quality attributes assessment and biotransformation studies. However, some obstacles, including low in vivo concentrations of mAb and complex biological matrices containing IgGs, could seriously interfere with mAb bioanalysis. In this study, a bioanalytical platform was developed for studying in vitro/in vivo modifications of trastuzumab, in which specific capture on mimotope peptide modified material was combined with trypsin digestion and LC-QTOF-MS analysis. It is worth noting that this material exhibits high specificity, suitable dynamic binding capacity, very little non-specific protein adsorption, and thus provides good enrichment and quantification performances for trastuzumab from patient serums. In particular, this bioanalytical platform was successfully applied to the dynamic monitoring of modifications of trastuzumab, such as deamidation, isomerization, oxidation and cyclization. Except for the faster deamidation of LC-Asn-30 and HC-Asn-387/392/393 under serum incubation, similar degradation trends for other sites were observed in phosphate buffer and spiked serum. Differences of peptide modification degrees of trastuzumab in patient serums were also observed. The novel platform exhibited superior specificity than Protein A/G/L based analytical methods, lower cost and higher stability than antigen or anti-idiotypic antibody based analytical methods, ensuring the evaluation of modification sites.
治疗性单抗的降解分析对于关键质量属性评估和生物转化研究非常重要。然而,一些障碍,包括单抗的体内浓度低和含有 IgG 的复杂生物基质,可能会严重干扰单抗的生物分析。在这项研究中,开发了一种用于研究曲妥珠单抗的体外/体内修饰的生物分析平台,其中特异性地结合在模拟肽修饰材料上,结合胰蛋白酶消化和 LC-QTOF-MS 分析。值得注意的是,这种材料表现出高特异性、合适的动态结合容量、很少的非特异性蛋白质吸附,因此能够从患者血清中很好地富集和定量曲妥珠单抗。特别是,该生物分析平台成功地应用于曲妥珠单抗修饰的动态监测,如脱酰胺、异构化、氧化和环化。除了在血清孵育下 LC-Asn-30 和 HC-Asn-387/392/393 的脱酰胺更快之外,在磷酸盐缓冲液和加标血清中观察到其他位点的相似降解趋势。还观察到患者血清中曲妥珠单抗的肽修饰程度的差异。与基于蛋白 A/G/L 的分析方法相比,该新平台表现出更高的特异性,与基于抗原或抗独特型抗体的分析方法相比,具有更低的成本和更高的稳定性,从而确保了修饰部位的评估。
