Human and murine granzyme B exhibit divergent substrate preferences
Human and murine granzyme B exhibit divergent substrate preferences
The cytotoxic lymphocyte protease granzyme B (GzmB) can promote apoptosis through direct processing and activation of members of the caspase family. GzmB can also cleave the BH3-only protein, BID, to promote caspase-independent mitochondrial permeabilization. Although human and mouse forms of GzmB exhibit extensive homology, these proteases diverge at residues predicted to influence substrate binding. We show that human and mouse GzmB exhibit radical differences in their ability to cleave BID, as well as several other key substrates, such as ICAD and caspase-8. Moreover, pharmacological inhibition of caspases clonogenically rescued human and mouse target cells from apoptosis initiated by mouse GzmB, but failed to do so in response to human GzmB. These data demonstrate that human and murine GzmB are distinct enzymes with different substrate preferences. Our observations also illustrate how subtle differences in enzyme structure can radically affect substrate selection.
435-44
Cullen, Sean P.
f4ee304e-a1ed-44a8-9588-e0dd30ef6f80
Adrain, Colin
f7950ceb-b788-4d86-a607-b9efc4437142
Lüthi, Alexander U.
f99ee8c8-abfe-4707-9df2-2c4b3fb8198c
Duriez, Patrick J.
4cf499bc-007a-43b3-b180-d6e5dc3d151b
Martin, Seamus J.
3df02649-5634-44da-834d-098937a7ae5b
12 February 2007
Cullen, Sean P.
f4ee304e-a1ed-44a8-9588-e0dd30ef6f80
Adrain, Colin
f7950ceb-b788-4d86-a607-b9efc4437142
Lüthi, Alexander U.
f99ee8c8-abfe-4707-9df2-2c4b3fb8198c
Duriez, Patrick J.
4cf499bc-007a-43b3-b180-d6e5dc3d151b
Martin, Seamus J.
3df02649-5634-44da-834d-098937a7ae5b
Cullen, Sean P., Adrain, Colin, Lüthi, Alexander U., Duriez, Patrick J. and Martin, Seamus J.
(2007)
Human and murine granzyme B exhibit divergent substrate preferences.
PLoS ONE, 176 (4), .
(doi:10.1083/jcb.200612025).
(PMID:9624143)
Abstract
The cytotoxic lymphocyte protease granzyme B (GzmB) can promote apoptosis through direct processing and activation of members of the caspase family. GzmB can also cleave the BH3-only protein, BID, to promote caspase-independent mitochondrial permeabilization. Although human and mouse forms of GzmB exhibit extensive homology, these proteases diverge at residues predicted to influence substrate binding. We show that human and mouse GzmB exhibit radical differences in their ability to cleave BID, as well as several other key substrates, such as ICAD and caspase-8. Moreover, pharmacological inhibition of caspases clonogenically rescued human and mouse target cells from apoptosis initiated by mouse GzmB, but failed to do so in response to human GzmB. These data demonstrate that human and murine GzmB are distinct enzymes with different substrate preferences. Our observations also illustrate how subtle differences in enzyme structure can radically affect substrate selection.
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Published date: 12 February 2007
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Local EPrints ID: 164797
URI: http://eprints.soton.ac.uk/id/eprint/164797
ISSN: 1932-6203
PURE UUID: ec25fe43-e536-4aac-ba80-b90aa2a4bc82
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Date deposited: 05 Oct 2010 09:55
Last modified: 14 Mar 2024 02:52
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Author:
Sean P. Cullen
Author:
Colin Adrain
Author:
Alexander U. Lüthi
Author:
Patrick J. Duriez
Author:
Seamus J. Martin
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