Fragments of bacterial endoglycosidase S and immunoglobulin G reveal subdomains of each that contribute to deglycosylation
Fragments of bacterial endoglycosidase S and immunoglobulin G reveal subdomains of each that contribute to deglycosylation
Endoglycosidase S (EndoS) is a glycoside-hydrolase secreted by the bacterium Streptococcus pyogenes. EndoS preferentially hydrolyzes the N-linked glycans from the Fc region of IgG during infection. This hydrolysis impedes Fc functionality and contributes to the immune evasion strategy of S. pyogenes. Here, we investigate the mechanism of human serum IgG deactivation by EndoS. We expressed fragments of IgG1 and demonstrated that EndoS was catalytically active against all of them including the isolated CH2 domain of the Fc domain. Similarly, we sought to investigate which domains within EndoS could contribute to activity. Bioinformatics analysis of the domain organization of EndoS confirmed the previous predictions of a chitinase domain and leucine-rich repeat but also revealed a putative carbohydrate binding module (CBM) followed by a C-terminal region. Using expressed fragments of EndoS, circular dichroism of the isolated CBM, and a CBM-C-terminal region fusion revealed folded domains dominated by ß sheet and α helical structure, respectively. Nuclear magnetic resonance analysis of the CBM with monosaccharides was suggestive of carbohydrate binding functionality. Functional analysis of truncations of EndoS revealed that, whereas the C-terminal of EndoS is dispensable for activity, its deletion impedes the hydrolysis of IgG glycans.
13876-13889
Dixon, Emma V.
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Claridge, Jolyon K.
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Harvey, David J.
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Baruah, Kavitha
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Yu, Xiaojie
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Vesiljevic, Snezana
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Mattick, Susan
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Pritchard, Laura K.
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Krishna, Benjamin
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Scanlan, Christopher N.
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Schnell, Jason R.
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Higgins, Matthew K.
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Zitzmann, Nicole
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Crispin, Max
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16 May 2014
Dixon, Emma V.
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Claridge, Jolyon K.
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Harvey, David J.
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Baruah, Kavitha
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Yu, Xiaojie
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Vesiljevic, Snezana
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Mattick, Susan
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Pritchard, Laura K.
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Krishna, Benjamin
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Scanlan, Christopher N.
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Schnell, Jason R.
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Higgins, Matthew K.
17871712-96d5-4862-a9db-ec8ee7e25262
Zitzmann, Nicole
f20f9920-574a-4aac-a86f-1625dd60125c
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Dixon, Emma V., Claridge, Jolyon K., Harvey, David J., Baruah, Kavitha, Yu, Xiaojie, Vesiljevic, Snezana, Mattick, Susan, Pritchard, Laura K., Krishna, Benjamin, Scanlan, Christopher N., Schnell, Jason R., Higgins, Matthew K., Zitzmann, Nicole and Crispin, Max
(2014)
Fragments of bacterial endoglycosidase S and immunoglobulin G reveal subdomains of each that contribute to deglycosylation.
The Journal of Biological Chemistry, 289 (20), .
(doi:10.1074/jbc.M113.532812).
Abstract
Endoglycosidase S (EndoS) is a glycoside-hydrolase secreted by the bacterium Streptococcus pyogenes. EndoS preferentially hydrolyzes the N-linked glycans from the Fc region of IgG during infection. This hydrolysis impedes Fc functionality and contributes to the immune evasion strategy of S. pyogenes. Here, we investigate the mechanism of human serum IgG deactivation by EndoS. We expressed fragments of IgG1 and demonstrated that EndoS was catalytically active against all of them including the isolated CH2 domain of the Fc domain. Similarly, we sought to investigate which domains within EndoS could contribute to activity. Bioinformatics analysis of the domain organization of EndoS confirmed the previous predictions of a chitinase domain and leucine-rich repeat but also revealed a putative carbohydrate binding module (CBM) followed by a C-terminal region. Using expressed fragments of EndoS, circular dichroism of the isolated CBM, and a CBM-C-terminal region fusion revealed folded domains dominated by ß sheet and α helical structure, respectively. Nuclear magnetic resonance analysis of the CBM with monosaccharides was suggestive of carbohydrate binding functionality. Functional analysis of truncations of EndoS revealed that, whereas the C-terminal of EndoS is dispensable for activity, its deletion impedes the hydrolysis of IgG glycans.
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e-pub ahead of print date: 25 March 2014
Published date: 16 May 2014
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Local EPrints ID: 414307
URI: http://eprints.soton.ac.uk/id/eprint/414307
ISSN: 0021-9258
PURE UUID: b3de4ff0-c696-4968-acb3-840f394e74f9
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Date deposited: 26 Sep 2017 16:30
Last modified: 16 Mar 2024 04:30
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Contributors
Author:
Emma V. Dixon
Author:
Jolyon K. Claridge
Author:
David J. Harvey
Author:
Kavitha Baruah
Author:
Xiaojie Yu
Author:
Snezana Vesiljevic
Author:
Susan Mattick
Author:
Laura K. Pritchard
Author:
Benjamin Krishna
Author:
Christopher N. Scanlan
Author:
Jason R. Schnell
Author:
Matthew K. Higgins
Author:
Nicole Zitzmann
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