Boronic derivatization-based strategy for monoacylglycerol identification, isomer annotation and quantification

Monoacylglycerols (MAGs) are important signaling molecules involved in various diseases. However, it is challenge for direct detection of MAGs and isomers. Additionally, difficulties in isomer annotation hinders the comprehensive profiling of MAGs and hampers revealing isomers' contributions to...

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Veröffentlicht in:Analytica chimica acta 2022-01, Vol.1190, p.339233-339233, Article 339233
Hauptverfasser: Zhu, Mengle, Lu, Kegui, Jin, Yiting, Xu, Xiaowei, Chu, Chengyu, Hao, Haiping, Zheng, Qiuling
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container_title Analytica chimica acta
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creator Zhu, Mengle
Lu, Kegui
Jin, Yiting
Xu, Xiaowei
Chu, Chengyu
Hao, Haiping
Zheng, Qiuling
description Monoacylglycerols (MAGs) are important signaling molecules involved in various diseases. However, it is challenge for direct detection of MAGs and isomers. Additionally, difficulties in isomer annotation hinders the comprehensive profiling of MAGs and hampers revealing isomers' contributions to diseases. Herein, a boronic derivatization-based strategy was developed for unambiguous identification, isomer annotation and quantification of MAGs in biological samples. 3-Nitrophenylboronic acid was selected as the derivatization reagent owing to its rapid and selective reactivity toward cis-diol moiety. First, a prediction model was established for MAG identification by the integration of m/z, isotopic distribution of boron, and retention time attributed by the carbon chain length and number of double bonds, which solved the difficulty of obtaining MAG standards. In addition, the designed derivatization reaction enabled the capture of thermally unstable sn-2 MAG isomers to ensure the chromatographic separation and direct MS detection. What's more, distinguished fragmentation patterns were discovered for derivatized MAG isomers, which allowed a novel and unambiguous isomer annotation. Furthermore, by considering the availability of standards, the quantification of MAGs was based on the development of calibration curves or relative quantification by internal standard. On this basis, the developed strategy was utilized for MAG identification and quantification in breast cancer samples, which suggested that MAGs could be regarded as potential biomarkers in breast cancer diagnosis or as indicators to trace the process of chemotherapy. It also helped make the puzzle complete by revealing that only one single isomer associated with the onset of disease was possible, instead of regarding them as a whole. Therefore, the boronic derivatization-based strategy facilitated the unambiguous identification, annotation and quantification of MAGs and isomers in biofluids, and would be beneficial for the mechanism studies of related diseases. [Display omitted] •Strategy for MAG identification, isomer annotation and quantification was developed.•Prediction model was established for MAG identification.•This strategy enabled the capture and chromatographic separation of MAG isomers.•Isomer annotation was achieved based on differential fragmentation patterns.•The exact roles and relationships of sn-1/2 isomers with diseases were revealed.
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Therefore, the boronic derivatization-based strategy facilitated the unambiguous identification, annotation and quantification of MAGs and isomers in biofluids, and would be beneficial for the mechanism studies of related diseases. 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However, it is challenge for direct detection of MAGs and isomers. Additionally, difficulties in isomer annotation hinders the comprehensive profiling of MAGs and hampers revealing isomers' contributions to diseases. Herein, a boronic derivatization-based strategy was developed for unambiguous identification, isomer annotation and quantification of MAGs in biological samples. 3-Nitrophenylboronic acid was selected as the derivatization reagent owing to its rapid and selective reactivity toward cis-diol moiety. First, a prediction model was established for MAG identification by the integration of m/z, isotopic distribution of boron, and retention time attributed by the carbon chain length and number of double bonds, which solved the difficulty of obtaining MAG standards. In addition, the designed derivatization reaction enabled the capture of thermally unstable sn-2 MAG isomers to ensure the chromatographic separation and direct MS detection. What's more, distinguished fragmentation patterns were discovered for derivatized MAG isomers, which allowed a novel and unambiguous isomer annotation. Furthermore, by considering the availability of standards, the quantification of MAGs was based on the development of calibration curves or relative quantification by internal standard. On this basis, the developed strategy was utilized for MAG identification and quantification in breast cancer samples, which suggested that MAGs could be regarded as potential biomarkers in breast cancer diagnosis or as indicators to trace the process of chemotherapy. It also helped make the puzzle complete by revealing that only one single isomer associated with the onset of disease was possible, instead of regarding them as a whole. Therefore, the boronic derivatization-based strategy facilitated the unambiguous identification, annotation and quantification of MAGs and isomers in biofluids, and would be beneficial for the mechanism studies of related diseases. [Display omitted] •Strategy for MAG identification, isomer annotation and quantification was developed.•Prediction model was established for MAG identification.•This strategy enabled the capture and chromatographic separation of MAG isomers.•Isomer annotation was achieved based on differential fragmentation patterns.•The exact roles and relationships of sn-1/2 isomers with diseases were revealed.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.aca.2021.339233</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0003-1589-5591</orcidid></addata></record>
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subjects Boronic derivatization
Isomer annotation
Mass spectrometry
Monoacylglycerol
Quantification
title Boronic derivatization-based strategy for monoacylglycerol identification, isomer annotation and quantification
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