Mass spectrometry-based glycomic profiling of the total IgG and total proteome N-glycomes isolated from follicular fluid.

Q2 Biochemistry, Genetics and Molecular Biology Biomolecular Concepts Pub Date : 2020-10-25 DOI:10.1515/bmc-2020-0015

Marko Klobučar, Sanja Dević Pavlić, Iris Car, Neda Smiljan Severinski, Tamara Tramišak Milaković, Anđelka Radojčić Badovinac, Sandra Kraljević Pavelić

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Abstract

Couples with infertility issues have been assisted by in vitro fertilization reproduction technologies with high success rates of 50-80%. However, complications associated with ovarian stimulation remain, such as ovarian hyperstimulation. Oocyte quality is a significant factor impacting the outcome of in vitro fertilization procedures, but other processes are also critical for fertilization success. Increasing evidence points to aberrant inflammation as one of these critical processes reflected in molecular changes, including glycosylation of proteins. Here we report results from a MALDI-TOF-MS-based glycomic profiling of the total IgG and total proteome N-glycomes isolated from the follicular fluid obtained from patients undergoing fertilization through either (1) assisted reproduction by modified natural cycle or (2) controlled ovarian stimulation (GnRH antagonist, GnRH Ant) protocols. Significant inflammatory-related differences between analyzed N-glycomes were observed from samples and correlated with the ovarian stimulation protocol used in patients.

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基于质谱技术对从卵泡液中分离出的总 IgG 和总蛋白质组 N-糖进行糖谱分析。

体外受精生殖技术为有不孕问题的夫妇提供了帮助，成功率高达 50-80%。然而，与卵巢刺激相关的并发症依然存在，如卵巢过度刺激。卵母细胞质量是影响体外受精过程结果的重要因素，但其他过程对受精成功也至关重要。越来越多的证据表明，异常炎症是这些关键过程之一，反映在分子变化上，包括蛋白质的糖基化。在此，我们报告了一项基于 MALDI-TOF-MS 的糖基化分析结果，该分析从通过（1）改良自然周期辅助生殖或（2）受控卵巢刺激（GnRH 拮抗剂，GnRH Ant）方案进行受精的患者卵泡液中分离出的总 IgG 和总蛋白质组 N-糖基化物。从样本中观察到分析的 N-苷元之间存在明显的炎症相关差异，并与患者使用的卵巢刺激方案相关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biomolecular Concepts Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)

CiteScore

5.30

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： BioMolecular Concepts is a peer-reviewed open access journal fostering the integration of different fields of biomolecular research. The journal aims to provide expert summaries from prominent researchers, and conclusive extensions of research data leading to new and original, testable hypotheses. Aspects of research that can promote related fields, and lead to novel insight into biological mechanisms or potential medical applications are of special interest. Original research articles reporting new data of broad significance are also welcome. Topics: -cellular and molecular biology- genetics and epigenetics- biochemistry- structural biology- neurosciences- developmental biology- molecular medicine- pharmacology- microbiology- plant biology and biotechnology.