利用液相色谱-串联质谱法和现场非对称离子迁移谱法同时检测干血斑和血浆中的肌生长蛋白靶向单克隆抗体

IF 3.1 3区 医学 Q2 CHEMISTRY, ANALYTICAL
Hyeon-Jeong Lee , Jiin Hwang , Yoondam Seo , Gahyeon Lee , Hwa Jeong Lee , Hophil Min
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引用次数: 0

摘要

转化生长因子-β超家族成员,如肌生长因子、生长/分化因子 11 和激活素 A,对骨骼肌质量有负面调节作用。针对这些细胞因子或活化因子受体 IIB 型的抑制剂有可能治疗肌肉疾病并提高体能。然而,由于其对肌肉质量的影响和可能的滥用,它们在体育运动中被严格禁止使用。鉴于在体育运动中作为兴奋剂滥用的可能性很大,因此迫切需要针对这些特定细胞因子或其受体的有效分析方法。在这项研究中,我们旨在开发并验证一种多靶点方法,利用液相色谱-串联质谱法检测人血浆和干血斑(DBS)样本中的禁用转化生长因子-β超家族靶向单克隆抗体,如兰多格珠单抗、多玛格珠单抗和激活素受体 IIB 型靶向抗体比马格珠单抗。使用蛋白 G 磁珠和现场非对称离子迁移谱(FAIMS)从干血斑和血浆样本中纯化抗体,以尽量减少干扰,然后进行液相色谱-串联质谱分析。验证过程包括特异性、选择性、线性、检测限 (LOD)、鉴定限、精确度、回收率、携带效应和基质效应的测试。在 DBS 和血浆样本中,目标抗体的检出限是相同的:landogrozumab 重链和轻链为 0.1 µg/mL,domagrozumab 轻链为 0.25 µg/mL,bimagrumab 重链为 0.25 µg/mL。然而,多马珠单抗重链在DBS中的检测限为0.5微克/毫升,在血浆中的检测限为1微克/毫升。该分析方法线性关系良好,血浆和 DBS 中的 R² 值均大于 0.99,且无携带效应。在中浓度(1 或 5 微克/毫升;对血浆中的多玛珠单抗重链具有特异性)和高浓度(10 微克/毫升)时,精密度(CV%)均低于 15%,在最低检测浓度时低于 20%。选择性和特异性表明,在分析不同血液样本中的目标 mAbs 时没有干扰。DBS 的回收率为 31.6-49.8%,血浆的回收率为 51.4-85.3%,没有明显的基质效应。这项研究为兴奋剂分析和新型蛋白质检测提供了一种有效的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Simultaneous detection of myostatin-targeting monoclonal antibodies in dried blood spots and plasma using liquid chromatography-tandem mass spectrometry with field asymmetric ion mobility spectrometry
Transforming growth factor-β superfamily members, such as myostatin, growth/differentiation factor 11, and activin A, negatively regulate skeletal muscle mass. Inhibitors targeting these cytokines or activin receptor type IIB have the potential to treat muscular diseases and enhance physical performance. However, because of their effects on muscle mass and potential misuse, they are strictly prohibited in sports. Given the high potential for misuse as a doping agent in sports, effective analytical methods for these prohibited antibodies targeting these specific cytokines or their receptor are critically needed. In this study, we aimed to develop and validate a multitarget method to detect the prohibited transforming growth factor-β superfamily-targeting monoclonal antibodies, such as landogrozumab, domagrozumab, and the activin receptor type IIB-targeting antibody, bimagrumab, in human plasma and dried blood spot (DBS) samples using liquid chromatography-tandem mass spectrometry. Antibodies were purified from both the DBS and plasma samples using protein G magnetic beads and field-asymmetric ion mobility spectrometry (FAIMS) to minimize interference, followed by liquid chromatography-tandem mass spectrometry analysis. The validation process included tests for specificity, selectivity, linearity, limit of detection (LOD), limit of identification, precision, recovery, carryover effect, and matrix effect. The LODs for the target antibodies were identical in both DBS and plasma samples at 0.1 µg/mL for landogrozumab heavy and light chains, as well as 0.25 µg/mL for the domagrozumab light chain and 0.25 µg/mL for the bimagrumab heavy chain. However, the heavy chain of domagrozumab exhibited an LOD of 0.5 µg/mL in DBS and 1 µg/mL in plasma. The analytical method demonstrated strong linearity, with R² values greater than 0.99 for both plasma and DBS, and no carryover effect. Precision (CV%) was below 15 % at both middle (1 or 5 µg/mL; specific to the heavy chain of domagrozumab in plasma) and high (10 µg/mL) concentrations and was less than 20 % at the LOD. The selectivity and specificity indicated no interference in the analysis of target mAbs in different blood samples. Recovery was 31.6–49.8 % for DBS and 51.4–85.3 % for plasma, with no significant matrix effect. This study provides an effective method for doping analysis and novel protein detection.
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来源期刊
CiteScore
6.70
自引率
5.90%
发文量
588
审稿时长
37 days
期刊介绍: This journal is an international medium directed towards the needs of academic, clinical, government and industrial analysis by publishing original research reports and critical reviews on pharmaceutical and biomedical analysis. It covers the interdisciplinary aspects of analysis in the pharmaceutical, biomedical and clinical sciences, including developments in analytical methodology, instrumentation, computation and interpretation. Submissions on novel applications focusing on drug purity and stability studies, pharmacokinetics, therapeutic monitoring, metabolic profiling; drug-related aspects of analytical biochemistry and forensic toxicology; quality assurance in the pharmaceutical industry are also welcome. Studies from areas of well established and poorly selective methods, such as UV-VIS spectrophotometry (including derivative and multi-wavelength measurements), basic electroanalytical (potentiometric, polarographic and voltammetric) methods, fluorimetry, flow-injection analysis, etc. are accepted for publication in exceptional cases only, if a unique and substantial advantage over presently known systems is demonstrated. The same applies to the assay of simple drug formulations by any kind of methods and the determination of drugs in biological samples based merely on spiked samples. Drug purity/stability studies should contain information on the structure elucidation of the impurities/degradants.
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