Selective cross-linking of coinciding protein assemblies by in-gel cross-linking mass spectrometry

Johannes F Hevler; Marie V Lukassen; Alfredo Cabrera-Orefice; Susanne Arnold; Matti F Pronker; Vojtech Franc; Albert J R Heck

doi:10.15252/embj.2020106174

Selective cross-linking of coinciding protein assemblies by in-gel cross-linking mass spectrometry

Johannes F Hevler
, Marie V Lukassen
, Alfredo Cabrera-Orefice
, Susanne Arnold
, Matti F Pronker
, Vojtech Franc
, Albert J R Heck

Laboratory of Pediatric Infectious Diseases, Radboud Center for Infectious Diseases, Radboud University Medical Center, Nijmegen, The Netherlands [email protected].

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Cross-linking mass spectrometry has developed into an important method to study protein structures and interactions. The in-solution cross-linking workflows involve time and sample consuming steps and do not provide sensible solutions for differentiating cross-links obtained from co-occurring protein oligomers, complexes, or conformers. Here we developed a cross-linking workflow combining blue native PAGE with in-gel cross-linking mass spectrometry (IGX-MS). This workflow circumvents steps, such as buffer exchange and cross-linker concentration optimization. Additionally, IGX-MS enables the parallel analysis of co-occurring protein complexes using only small amounts of sample. Another benefit of IGX-MS, demonstrated by experiments on GroEL and purified bovine heart mitochondria, is the substantial reduction of undesired over-length cross-links compared to in-solution cross-linking. We next used IGX-MS to investigate the complement components C5, C6, and their hetero-dimeric C5b6 complex. The obtained cross-links were used to generate a refined structural model of the complement component C6, resembling C6 in its inactivated state. This finding shows that IGX-MS can provide new insights into the initial stages of the terminal complement pathway.

Original language	English
Article number	e106174
Pages (from-to)	1-16
Journal	EMBO Journal
Volume	40
Issue number	4
DOIs	https://doi.org/10.15252/embj.2020106174
Publication status	Published - 15 Feb 2021

Bibliographical note

Funding Information:
All authors acknowledge support from the Netherlands Organization for Scientific Research (NWO) funding the Netherlands Proteomics Centre through the X‐omics Road Map program (project 184.034.019) and the EU Horizon 2020 program INFRAIA project Epic‐XS (Project 823839). MVL thanks Independent Research Fund Denmark (project 9036‐00007B).

Publisher Copyright:
© 2021 The Authors. Published under the terms of the CC BY 4.0 license

Keywords

BN-PAGE
complement
cross-linking
protein complexes
protein modeling

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The EMBO Journal - 2021 - Hevler - Selective cross‐linking of coinciding protein assemblies by in‐gel cross‐linking massFinal published version, 1.93 MBLicence: CC BY

Cite this

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title = "Selective cross-linking of coinciding protein assemblies by in-gel cross-linking mass spectrometry",

abstract = "Cross-linking mass spectrometry has developed into an important method to study protein structures and interactions. The in-solution cross-linking workflows involve time and sample consuming steps and do not provide sensible solutions for differentiating cross-links obtained from co-occurring protein oligomers, complexes, or conformers. Here we developed a cross-linking workflow combining blue native PAGE with in-gel cross-linking mass spectrometry (IGX-MS). This workflow circumvents steps, such as buffer exchange and cross-linker concentration optimization. Additionally, IGX-MS enables the parallel analysis of co-occurring protein complexes using only small amounts of sample. Another benefit of IGX-MS, demonstrated by experiments on GroEL and purified bovine heart mitochondria, is the substantial reduction of undesired over-length cross-links compared to in-solution cross-linking. We next used IGX-MS to investigate the complement components C5, C6, and their hetero-dimeric C5b6 complex. The obtained cross-links were used to generate a refined structural model of the complement component C6, resembling C6 in its inactivated state. This finding shows that IGX-MS can provide new insights into the initial stages of the terminal complement pathway.",

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note = "Funding Information: All authors acknowledge support from the Netherlands Organization for Scientific Research (NWO) funding the Netherlands Proteomics Centre through the X‐omics Road Map program (project 184.034.019) and the EU Horizon 2020 program INFRAIA project Epic‐XS (Project 823839). MVL thanks Independent Research Fund Denmark (project 9036‐00007B). Publisher Copyright: {\textcopyright} 2021 The Authors. Published under the terms of the CC BY 4.0 license",

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AU - Pronker, Matti F

AU - Franc, Vojtech

AU - Heck, Albert J R

N1 - Funding Information: All authors acknowledge support from the Netherlands Organization for Scientific Research (NWO) funding the Netherlands Proteomics Centre through the X‐omics Road Map program (project 184.034.019) and the EU Horizon 2020 program INFRAIA project Epic‐XS (Project 823839). MVL thanks Independent Research Fund Denmark (project 9036‐00007B). Publisher Copyright: © 2021 The Authors. Published under the terms of the CC BY 4.0 license

PY - 2021/2/15

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N2 - Cross-linking mass spectrometry has developed into an important method to study protein structures and interactions. The in-solution cross-linking workflows involve time and sample consuming steps and do not provide sensible solutions for differentiating cross-links obtained from co-occurring protein oligomers, complexes, or conformers. Here we developed a cross-linking workflow combining blue native PAGE with in-gel cross-linking mass spectrometry (IGX-MS). This workflow circumvents steps, such as buffer exchange and cross-linker concentration optimization. Additionally, IGX-MS enables the parallel analysis of co-occurring protein complexes using only small amounts of sample. Another benefit of IGX-MS, demonstrated by experiments on GroEL and purified bovine heart mitochondria, is the substantial reduction of undesired over-length cross-links compared to in-solution cross-linking. We next used IGX-MS to investigate the complement components C5, C6, and their hetero-dimeric C5b6 complex. The obtained cross-links were used to generate a refined structural model of the complement component C6, resembling C6 in its inactivated state. This finding shows that IGX-MS can provide new insights into the initial stages of the terminal complement pathway.

AB - Cross-linking mass spectrometry has developed into an important method to study protein structures and interactions. The in-solution cross-linking workflows involve time and sample consuming steps and do not provide sensible solutions for differentiating cross-links obtained from co-occurring protein oligomers, complexes, or conformers. Here we developed a cross-linking workflow combining blue native PAGE with in-gel cross-linking mass spectrometry (IGX-MS). This workflow circumvents steps, such as buffer exchange and cross-linker concentration optimization. Additionally, IGX-MS enables the parallel analysis of co-occurring protein complexes using only small amounts of sample. Another benefit of IGX-MS, demonstrated by experiments on GroEL and purified bovine heart mitochondria, is the substantial reduction of undesired over-length cross-links compared to in-solution cross-linking. We next used IGX-MS to investigate the complement components C5, C6, and their hetero-dimeric C5b6 complex. The obtained cross-links were used to generate a refined structural model of the complement component C6, resembling C6 in its inactivated state. This finding shows that IGX-MS can provide new insights into the initial stages of the terminal complement pathway.

KW - BN-PAGE

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KW - cross-linking

KW - protein complexes

KW - protein modeling

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ER -

Selective cross-linking of coinciding protein assemblies by in-gel cross-linking mass spectrometry

Abstract

Bibliographical note

Keywords

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