Identification of metabolites of peptide-derived drugs using an isotope-labeled reporter ion screening strategy

代谢物 化学 液相色谱-质谱法中的离子抑制 新陈代谢 生物化学 代谢途径 胰岛素 体外 体内 药理学 色谱法 液相色谱-质谱法 质谱法 生物 内分泌学 生物技术
作者
Andreas Thomas,Mario Thevis
出处
期刊:Clinical Chemistry and Laboratory Medicine [De Gruyter]
卷期号:58 (5): 690-700 被引量:11
标识
DOI:10.1515/cclm-2019-1009
摘要

Abstract Background Peptide-derived drugs represent an emerging class of prohibited substances in professional sports and, thus, in modern doping controls. After parental administration (e.g. subcutaneous, intravenous), these drugs undergo various metabolic processes, which degrade them to biologically active or inactive peptides. Knowledge about these metabolic processes and the hereby produced metabolites plays a key role in successful doping controls due to the effective design of analytical assays under consideration of optimal analytical targets. Unfortunately, the complexity of biological matrix (e.g. blood or urine) complicates the immediate identification of relevant metabolites due to the enormous excess of naturally occurring peptides and their degradation products. Methods In this study, a strategy employing in-vitro metabolism of stable isotope-labeled peptides producing characteristic reporter ions derived from labeled immonium ions is shown. The in-vitro experiments were performed with human skin tissue microsomes (S9), and model drugs representing prohibited peptide hormones were synacthen, insulin, and corticorelin (respectively, their stable isotope-labeled analogs). After generic sample preparation, the metabolites were identified by means of liquid chromatography (LC) coupled to high-resolution mass spectrometry (MS) in an untargeted approach. Results and conclusions For all three model peptides, several metabolic products were readily identified. While insulin and corticorelin were found to be comparably stable, synacthen was fully degraded, yielding a plethora of metabolic products. A proof of concept concerning the transferability of the obtained data was accomplished by analyzing plasma samples collected post-administration of recombinant human insulin, corroborating the presence of a skin protease-indicative insulin metabolite in vivo .
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