生物正交蛋白质标记技术有助于研究瓜氨酸化和氨甲酰化自身抗原的抗原加工过程。

Bioorthogonal protein labelling enables the study of antigen processing of citrullinated and carbamylated auto-antigens.

作者信息

van Leeuwen Tyrza, Araman Can, Pieper Pournara Linda, Kampstra Arieke S B, Bakkum Thomas, Marqvorsen Mikkel H S, Nascimento Clarissa R, Groenewold G J Mirjam, van der Wulp Willemijn, Camps Marcel G M, Janssen George M C, van Veelen Peter A, van Westen Gerard J P, Janssen Antonius P A, Florea Bogdan I, Overkleeft Herman S, Ossendorp Ferry A, Toes René E M, van Kasteren Sander I

机构信息

Division of Bio-organic Synthesis, Leiden Institute of Chemistry and the Institute of Chemical Immunology, Leiden University Leiden The Netherlands

Department of Rheumatology, Leiden University Medical Center P.O. Box 9600 2300 RC Leiden The Netherlands

出版信息

RSC Chem Biol. 2021 Feb 23;2(3):855-862. doi: 10.1039/d1cb00009h.

DOI:10.1039/d1cb00009h

PMID:34212151

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8190914/

Abstract

Proteolysis is fundamental to many biological processes. In the immune system, it underpins the activation of the adaptive immune response: degradation of antigenic material into short peptides and presentation thereof on major histocompatibility complexes, leads to activation of T-cells. This initiates the adaptive immune response against many pathogens. Studying proteolysis is difficult, as the oft-used polypeptide reporters are susceptible to proteolytic sequestration themselves. Here we present a new approach that allows the imaging of antigen proteolysis throughout the processing pathway in an unbiased manner. By incorporating bioorthogonal functionalities into the protein in place of methionines, antigens can be followed during degradation, whilst leaving reactive sidechains open to templated and non-templated post-translational modifications, such as citrullination and carbamylation. Using this approach, we followed and imaged the post-uptake fate of the commonly used antigen ovalbumin, as well as the post-translationally citrullinated and/or carbamylated auto-antigen vinculin in rheumatoid arthritis, revealing differences in antigen processing and presentation.

摘要

蛋白质水解是许多生物过程的基础。在免疫系统中，它是适应性免疫反应激活的基础：抗原物质降解为短肽并在主要组织相容性复合体上呈递，从而导致T细胞激活。这启动了针对许多病原体的适应性免疫反应。研究蛋白质水解很困难，因为常用的多肽报告分子本身易受蛋白水解隔离作用的影响。在此，我们提出了一种新方法，该方法能够以无偏差的方式在整个加工途径中对抗原蛋白质水解进行成像。通过将生物正交功能基团取代甲硫氨酸掺入蛋白质中，抗原在降解过程中能够被追踪，同时使反应性侧链易于进行模板化和非模板化的翻译后修饰，如瓜氨酸化和氨甲酰化。使用这种方法，我们追踪并成像了常用抗原卵清蛋白摄取后的命运，以及类风湿性关节炎中翻译后瓜氨酸化和/或氨甲酰化的自身抗原纽蛋白，揭示了抗原加工和呈递的差异。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4ba5/8341172/b960a0684651/d1cb00009h-f1.jpg

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生物正交蛋白质标记技术有助于研究瓜氨酸化和氨甲酰化自身抗原的抗原加工过程。

Bioorthogonal protein labelling enables the study of antigen processing of citrullinated and carbamylated auto-antigens.

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