Mass Photometry of Membrane Proteins

Anna Olerinyova; Adar Sonn-Segev; Joseph Gault; Cédric Eichmann; Johannes Schimpf; Adrian H. Kopf; Lucas S.P. Rudden; Dzmitry Ashkinadze; Radoslaw Bomba; Lukas Frey; Jason Greenwald; Matteo T. Degiacomi; Ralf Steinhilper; J. Antoinette Killian; Thorsten Friedrich; Roland Riek; Weston B. Struwe; Philipp Kukura

doi:10.1016/j.chempr.2020.11.011

Mass Photometry of Membrane Proteins

Anna Olerinyova, Adar Sonn-Segev, Joseph Gault, Cédric Eichmann, Johannes Schimpf, Adrian H. Kopf, Lucas S.P. Rudden, Dzmitry Ashkinadze, Radoslaw Bomba, Lukas Frey, Jason Greenwald, Matteo T. Degiacomi, Ralf Steinhilper, J. Antoinette Killian, Thorsten Friedrich, Roland Riek, Weston B. Struwe^*, Philipp Kukura

^*Corresponding author for this work

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

Abstract

Integral membrane proteins (IMPs) are biologically highly significant but challenging to study because they require maintaining a cellular lipid-like environment. Here, we explore the application of mass photometry (MP) to IMPs and membrane-mimetic systems at the single-particle level. We apply MP to amphipathic vehicles, such as detergents and amphipols, as well as to lipid and native nanodiscs, characterizing the particle size, sample purity, and heterogeneity. Using methods established for cryogenic electron microscopy, we eliminate detergent background, enabling high-resolution studies of membrane-protein structure and interactions. We find evidence that, when extracted from native membranes using native styrene-maleic acid nanodiscs, the potassium channel KcsA is present as a dimer of tetramers-in contrast to results obtained using detergent purification. Finally, using lipid nanodiscs, we show that MP can help distinguish between functional and non-functional nanodisc assemblies, as well as determine the critical factors for lipid nanodisc formation.

Original language	English
Pages (from-to)	224-236
Number of pages	13
Journal	Chem
Volume	7
Issue number	1
DOIs	https://doi.org/10.1016/j.chempr.2020.11.011
Publication status	Published - 14 Jan 2021

Bibliographical note

Funding Information:
The datasets supporting this study are available through the Oxford Research Archive at https://doi.org/10.5287/bodleian:5zNMEZY0G.P.K. is supported by an ERC Consolidator grant (PHOTOMASS 819593). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen's College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1. W.B.S. was supported by Refeyn Ltd. The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202. We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback. Concept, W.B.S. and P.K.; Methodology, A.O. A.S.S. J. Gault, W.B.S. P.K.; Investigation, A.O. A.S.S. J. Greenwald, D.A. R.B. C.E. J.S. A.H.K. L.S.P.R. M.T.D. and L.F.; Formal Analysis, A.O. and A.S.S.; Writing ? Original Draft, W.B.S. and P.K.; Writing ? Review & Editing, all authors; Visualization, A.O. A.S.S. W.B.S. and P.K.; Supervision: J. Gault, J.A.K. T.F. A.S.S. R.R. W.B.S. and P.K. P.K. is a director, founder, and shareholder in Refeyn Ltd. W.B.S. is a shareholder and consultant to Refeyn Ltd. All other authors declare no conflict of interest.

Funding Information:
P.K. is supported by an ERC Consolidator grant ( PHOTOMASS 819593 ). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen’s College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1 . W.B.S. was supported by Refeyn Ltd . The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202 . We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback.

Publisher Copyright:
© 2020 The Authors

Funding

The datasets supporting this study are available through the Oxford Research Archive at https://doi.org/10.5287/bodleian:5zNMEZY0G.P.K. is supported by an ERC Consolidator grant (PHOTOMASS 819593). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen's College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1. W.B.S. was supported by Refeyn Ltd. The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202. We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback. Concept, W.B.S. and P.K.; Methodology, A.O. A.S.S. J. Gault, W.B.S. P.K.; Investigation, A.O. A.S.S. J. Greenwald, D.A. R.B. C.E. J.S. A.H.K. L.S.P.R. M.T.D. and L.F.; Formal Analysis, A.O. and A.S.S.; Writing ? Original Draft, W.B.S. and P.K.; Writing ? Review & Editing, all authors; Visualization, A.O. A.S.S. W.B.S. and P.K.; Supervision: J. Gault, J.A.K. T.F. A.S.S. R.R. W.B.S. and P.K. P.K. is a director, founder, and shareholder in Refeyn Ltd. W.B.S. is a shareholder and consultant to Refeyn Ltd. All other authors declare no conflict of interest. P.K. is supported by an ERC Consolidator grant ( PHOTOMASS 819593 ). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen’s College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1 . W.B.S. was supported by Refeyn Ltd . The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202 . We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback.

Keywords

amphipol
detergent micelle
label-free
mass photometry
membrane proteins
nanodisc
SDG3: Good health and well-being
single-molecule

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PIIS2451929420305945Final published version, 4.66 MBLicence: CC BY-NC-ND

Cite this

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title = "Mass Photometry of Membrane Proteins",

abstract = "Integral membrane proteins (IMPs) are biologically highly significant but challenging to study because they require maintaining a cellular lipid-like environment. Here, we explore the application of mass photometry (MP) to IMPs and membrane-mimetic systems at the single-particle level. We apply MP to amphipathic vehicles, such as detergents and amphipols, as well as to lipid and native nanodiscs, characterizing the particle size, sample purity, and heterogeneity. Using methods established for cryogenic electron microscopy, we eliminate detergent background, enabling high-resolution studies of membrane-protein structure and interactions. We find evidence that, when extracted from native membranes using native styrene-maleic acid nanodiscs, the potassium channel KcsA is present as a dimer of tetramers-in contrast to results obtained using detergent purification. Finally, using lipid nanodiscs, we show that MP can help distinguish between functional and non-functional nanodisc assemblies, as well as determine the critical factors for lipid nanodisc formation.",

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author = "Anna Olerinyova and Adar Sonn-Segev and Joseph Gault and C{\'e}dric Eichmann and Johannes Schimpf and Kopf, {Adrian H.} and Rudden, {Lucas S.P.} and Dzmitry Ashkinadze and Radoslaw Bomba and Lukas Frey and Jason Greenwald and Degiacomi, {Matteo T.} and Ralf Steinhilper and Killian, {J. Antoinette} and Thorsten Friedrich and Roland Riek and Struwe, {Weston B.} and Philipp Kukura",

note = "Funding Information: The datasets supporting this study are available through the Oxford Research Archive at https://doi.org/10.5287/bodleian:5zNMEZY0G.P.K. is supported by an ERC Consolidator grant (PHOTOMASS 819593). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen's College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1. W.B.S. was supported by Refeyn Ltd. The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202. We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback. Concept, W.B.S. and P.K.; Methodology, A.O. A.S.S. J. Gault, W.B.S. P.K.; Investigation, A.O. A.S.S. J. Greenwald, D.A. R.B. C.E. J.S. A.H.K. L.S.P.R. M.T.D. and L.F.; Formal Analysis, A.O. and A.S.S.; Writing ? Original Draft, W.B.S. and P.K.; Writing ? Review & Editing, all authors; Visualization, A.O. A.S.S. W.B.S. and P.K.; Supervision: J. Gault, J.A.K. T.F. A.S.S. R.R. W.B.S. and P.K. P.K. is a director, founder, and shareholder in Refeyn Ltd. W.B.S. is a shareholder and consultant to Refeyn Ltd. All other authors declare no conflict of interest. Funding Information: P.K. is supported by an ERC Consolidator grant ( PHOTOMASS 819593 ). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen{\textquoteright}s College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1 . W.B.S. was supported by Refeyn Ltd . The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202 . We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback. Publisher Copyright: {\textcopyright} 2020 The Authors",

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doi = "10.1016/j.chempr.2020.11.011",

language = "English",

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AU - Olerinyova, Anna

AU - Sonn-Segev, Adar

AU - Gault, Joseph

AU - Eichmann, Cédric

AU - Schimpf, Johannes

AU - Kopf, Adrian H.

AU - Rudden, Lucas S.P.

AU - Ashkinadze, Dzmitry

AU - Bomba, Radoslaw

AU - Frey, Lukas

AU - Greenwald, Jason

AU - Degiacomi, Matteo T.

AU - Steinhilper, Ralf

AU - Killian, J. Antoinette

AU - Friedrich, Thorsten

AU - Riek, Roland

AU - Struwe, Weston B.

AU - Kukura, Philipp

N1 - Funding Information: The datasets supporting this study are available through the Oxford Research Archive at https://doi.org/10.5287/bodleian:5zNMEZY0G.P.K. is supported by an ERC Consolidator grant (PHOTOMASS 819593). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen's College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1. W.B.S. was supported by Refeyn Ltd. The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202. We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback. Concept, W.B.S. and P.K.; Methodology, A.O. A.S.S. J. Gault, W.B.S. P.K.; Investigation, A.O. A.S.S. J. Greenwald, D.A. R.B. C.E. J.S. A.H.K. L.S.P.R. M.T.D. and L.F.; Formal Analysis, A.O. and A.S.S.; Writing ? Original Draft, W.B.S. and P.K.; Writing ? Review & Editing, all authors; Visualization, A.O. A.S.S. W.B.S. and P.K.; Supervision: J. Gault, J.A.K. T.F. A.S.S. R.R. W.B.S. and P.K. P.K. is a director, founder, and shareholder in Refeyn Ltd. W.B.S. is a shareholder and consultant to Refeyn Ltd. All other authors declare no conflict of interest. Funding Information: P.K. is supported by an ERC Consolidator grant ( PHOTOMASS 819593 ). A.O. is supported by an EPSRC DTC Studentship. J. Gault is supported by a Junior Research Fellowship at the Queen’s College, Oxford. M.T.D. is supported the EPSRC fellowship EP/P016499/1 . W.B.S. was supported by Refeyn Ltd . The work in the T.F. laboratory was supported by the Deutsche Forschungsgemeinschaft (DFG) grant 278002225/RTG 2202 . We thank N.G. Housden and C. Kleanthous for providing OmpF protein. We thank Catherine Lichten for feedback. Publisher Copyright: © 2020 The Authors

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N2 - Integral membrane proteins (IMPs) are biologically highly significant but challenging to study because they require maintaining a cellular lipid-like environment. Here, we explore the application of mass photometry (MP) to IMPs and membrane-mimetic systems at the single-particle level. We apply MP to amphipathic vehicles, such as detergents and amphipols, as well as to lipid and native nanodiscs, characterizing the particle size, sample purity, and heterogeneity. Using methods established for cryogenic electron microscopy, we eliminate detergent background, enabling high-resolution studies of membrane-protein structure and interactions. We find evidence that, when extracted from native membranes using native styrene-maleic acid nanodiscs, the potassium channel KcsA is present as a dimer of tetramers-in contrast to results obtained using detergent purification. Finally, using lipid nanodiscs, we show that MP can help distinguish between functional and non-functional nanodisc assemblies, as well as determine the critical factors for lipid nanodisc formation.

AB - Integral membrane proteins (IMPs) are biologically highly significant but challenging to study because they require maintaining a cellular lipid-like environment. Here, we explore the application of mass photometry (MP) to IMPs and membrane-mimetic systems at the single-particle level. We apply MP to amphipathic vehicles, such as detergents and amphipols, as well as to lipid and native nanodiscs, characterizing the particle size, sample purity, and heterogeneity. Using methods established for cryogenic electron microscopy, we eliminate detergent background, enabling high-resolution studies of membrane-protein structure and interactions. We find evidence that, when extracted from native membranes using native styrene-maleic acid nanodiscs, the potassium channel KcsA is present as a dimer of tetramers-in contrast to results obtained using detergent purification. Finally, using lipid nanodiscs, we show that MP can help distinguish between functional and non-functional nanodisc assemblies, as well as determine the critical factors for lipid nanodisc formation.

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KW - membrane proteins

KW - nanodisc

KW - SDG3: Good health and well-being

KW - single-molecule

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DO - 10.1016/j.chempr.2020.11.011

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SN - 2451-9308

VL - 7

SP - 224

EP - 236

JO - Chem

JF - Chem

IS - 1

ER -

Mass Photometry of Membrane Proteins

Abstract

Bibliographical note

Funding

Keywords

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