Development of styrene maleic acid lipid particles (SMALPs) as a tool for studies of phage-host interactions
Development of styrene maleic acid lipid particles (SMALPs) as a tool for studies of phage-host interactions
The infection of a bacterium by a phage starts with attachment to a receptor molecule on the host cell surface by the phage. Since receptor-phage interactions are crucial to successful infections, they are major determinants of phage host range and, by extension, of the broader effects that phages have on bacterial communities. Many receptor molecules, particularly membrane proteins, are difficult to isolate because their stability is supported by their native membrane environments. Styrene maleic acid lipid particles (SMALPs), a recent advance in membrane protein studies, are the result of membrane solubilizations by styrene maleic acid (SMA) copolymer chains. SMALPs thereby allow for isolation of membrane proteins while maintaining their native environment. Here, we explore SMALPs as a tool to isolate and study phage-receptor interactions. We show that SMALPs produced from taxonomically distant bacterial membranes allow for receptor-specific decrease of viable phage counts of several model phages that span the three largest phage families. After characterizing the effects of incubation time and SMALP concentration on the activity of three distinct phages, we present evidence that the interaction between two model phages and SMALPs is specific to bacterial species and the phage receptor molecule. These interactions additionally lead to DNA ejection by nearly all particles at high phage titers. We conclude that SMALPs are a potentially highly useful tool for phage-host interaction studies.
IMPORTANCE Bacteriophages (viruses that infect bacteria or phages) impact every microbial community. All phage infections start with the binding of the viral particle to a specific receptor molecule on the host cell surface. Due to its importance in phage infections, this first step is of interest to many phage-related research and applications. However, many phage receptors are difficult to isolate. Styrene maleic acid lipid particles (SMALPs) are a recently developed approach to isolate membrane proteins in their native environment. In this study, we explore SMALPs as a tool to study phage-receptor interactions. We find that different phage species bind to SMALPs, while maintaining specificity to their receptor. We then characterize the time and concentration dependence of phage-SMALP interactions and furthermore show that they lead to genome ejection by the phage. The results presented here show that SMALPs are a useful tool for future studies of phage-receptor interactions.
SMALPs, bacteriophages, outer membrane proteins, phage-host interactions
de Jonge, Patrick A
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Sibinga, Dieuwke J.C. Smit
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Boright, Oliver A.
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Costa, Ana Rita
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Luzia De Nobrega, Franklin
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Brouns, Stan JJ
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Dutilh, Bas E.
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9 November 2020
de Jonge, Patrick A
688a0bcd-2b5d-45e3-835c-a06e15484ed6
Sibinga, Dieuwke J.C. Smit
cad8d662-bb37-439f-9e0e-8f3166bfa255
Boright, Oliver A.
af2750a5-2be2-4cd3-8ca0-b41fd31069fa
Costa, Ana Rita
a1d2b803-b767-4418-a21c-516671e9b40d
Luzia De Nobrega, Franklin
6532795d-88a4-4f05-9b26-6af5b8f21a0d
Brouns, Stan JJ
b9c93a6a-120b-476b-8394-048e41d8ae79
Dutilh, Bas E.
c570f46e-01cb-4c4a-a9bb-3d39b0815106
de Jonge, Patrick A, Sibinga, Dieuwke J.C. Smit, Boright, Oliver A., Costa, Ana Rita, Luzia De Nobrega, Franklin, Brouns, Stan JJ and Dutilh, Bas E.
(2020)
Development of styrene maleic acid lipid particles (SMALPs) as a tool for studies of phage-host interactions.
Journal of Virology, 94 (23), [e01559-20].
(doi:10.1128/JVI.01559-20).
Abstract
The infection of a bacterium by a phage starts with attachment to a receptor molecule on the host cell surface by the phage. Since receptor-phage interactions are crucial to successful infections, they are major determinants of phage host range and, by extension, of the broader effects that phages have on bacterial communities. Many receptor molecules, particularly membrane proteins, are difficult to isolate because their stability is supported by their native membrane environments. Styrene maleic acid lipid particles (SMALPs), a recent advance in membrane protein studies, are the result of membrane solubilizations by styrene maleic acid (SMA) copolymer chains. SMALPs thereby allow for isolation of membrane proteins while maintaining their native environment. Here, we explore SMALPs as a tool to isolate and study phage-receptor interactions. We show that SMALPs produced from taxonomically distant bacterial membranes allow for receptor-specific decrease of viable phage counts of several model phages that span the three largest phage families. After characterizing the effects of incubation time and SMALP concentration on the activity of three distinct phages, we present evidence that the interaction between two model phages and SMALPs is specific to bacterial species and the phage receptor molecule. These interactions additionally lead to DNA ejection by nearly all particles at high phage titers. We conclude that SMALPs are a potentially highly useful tool for phage-host interaction studies.
IMPORTANCE Bacteriophages (viruses that infect bacteria or phages) impact every microbial community. All phage infections start with the binding of the viral particle to a specific receptor molecule on the host cell surface. Due to its importance in phage infections, this first step is of interest to many phage-related research and applications. However, many phage receptors are difficult to isolate. Styrene maleic acid lipid particles (SMALPs) are a recently developed approach to isolate membrane proteins in their native environment. In this study, we explore SMALPs as a tool to study phage-receptor interactions. We find that different phage species bind to SMALPs, while maintaining specificity to their receptor. We then characterize the time and concentration dependence of phage-SMALP interactions and furthermore show that they lead to genome ejection by the phage. The results presented here show that SMALPs are a useful tool for future studies of phage-receptor interactions.
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Development of styrene maleic acid
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Accepted/In Press date: 4 September 2020
e-pub ahead of print date: 16 September 2020
Published date: 9 November 2020
Additional Information:
Funding Information:
P.A.D.J. and B.E.D. were supported by NWO Vidi grant 864.14.004 and ERC Consolidator grant 865694. F.L.N. was supported by NWO Veni grant 016.Veni.181.092, and S.J.J.B. was supported by Vici grant VI.C.182.027 and European Research Council Stg grant 639707.
Publisher Copyright:
Copyright © 2020 de Jonge et al. This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license.
Keywords:
SMALPs, bacteriophages, outer membrane proteins, phage-host interactions
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Local EPrints ID: 444195
URI: http://eprints.soton.ac.uk/id/eprint/444195
ISSN: 0022-538X
PURE UUID: 99b781a2-205b-4dc0-b2e0-031f7eac4413
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Date deposited: 01 Oct 2020 16:31
Last modified: 17 Mar 2024 04:02
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Author:
Patrick A de Jonge
Author:
Dieuwke J.C. Smit Sibinga
Author:
Oliver A. Boright
Author:
Ana Rita Costa
Author:
Stan JJ Brouns
Author:
Bas E. Dutilh
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