Distinct cell death programs in monocytes regulate innate responses following challenge with common causes of invasive bacterial disease
Distinct cell death programs in monocytes regulate innate responses following challenge with common causes of invasive bacterial disease
Peripheral blood monocytes represent the rapid response component of mononuclear phagocyte host defense, generating vigorous but finite antibacterial responses. We investigated the fate of highly purified primary human monocytes following phagocytosis of different bacteria. Exposure to high bacterial loads resulted in rapid loss of cell viability and decreased functional competence. Cell death typically involved classical apoptosis. Exposure to high numbers of Escherichia coli and Klebsiella pneumoniae induced nonapoptotic death with loss of cell membrane integrity, marked disruption of phagolysosomes, and caspase-1 activation, while a subset of cells also released caspase-1-regulated extracellular traps. Classical apoptosis increased if extracellular bacterial replication was reduced and decreased if intracellular ATP levels were reduced during these infections. Both classical apoptosis and the alternative forms of cell death allowed monocytes, whose functional competence was exhausted, to downregulate reactive oxygen species and proinflammatory cytokine responses. In contrast, sustained stimulation of glycolytic metabolism and mitochondrial oxidative phosphorylation, with associated hypoxia inducible factor-1alpha upregulation, maintained intracellular ATP levels and prolonged monocyte functional longevity, as assessed by maintenance of phagocytosis, reactive oxygen species production, and proinflammatory cytokine generation. Monocyte innate responses to bacteria are short-lived and are limited by an intrinsic program of apoptosis, a response that is subverted by overwhelming infection with E. coli and K. pneumoniae or bacterial stimulation of cell metabolism. In this regard, the fate of monocytes following bacterial challenge more closely resembles neutrophils than macrophages.
2968-2979
Webster, Steve J.
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Daigneault, Marc
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Bewley, Martin A.
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Preston, Julie A.
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Marriott, Helen M.
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Walmsley, Sarah R.
afb9ae46-e750-4582-b2f2-ffe901f67119
Read, Robert C.
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Whyte, Moira K.B.
7c8b9870-17db-4359-ac5c-57ba9197ed82
Dockrell, David H.
a068c9bf-35b8-4c10-8f91-58639cfeca0b
1 September 2010
Webster, Steve J.
4c8a2d8c-fce7-454f-8e71-98b9ec498acb
Daigneault, Marc
4d84aabf-c0cd-463d-b7be-80d13f66b180
Bewley, Martin A.
1412f184-67e0-4fe7-8692-db253d411471
Preston, Julie A.
8e85b8aa-77ce-495e-8b7f-b51864102c6e
Marriott, Helen M.
34ca8904-d637-4081-b34c-12be45ecef9f
Walmsley, Sarah R.
afb9ae46-e750-4582-b2f2-ffe901f67119
Read, Robert C.
b5caca7b-0063-438a-b703-7ecbb6fc2b51
Whyte, Moira K.B.
7c8b9870-17db-4359-ac5c-57ba9197ed82
Dockrell, David H.
a068c9bf-35b8-4c10-8f91-58639cfeca0b
Webster, Steve J., Daigneault, Marc, Bewley, Martin A., Preston, Julie A., Marriott, Helen M., Walmsley, Sarah R., Read, Robert C., Whyte, Moira K.B. and Dockrell, David H.
(2010)
Distinct cell death programs in monocytes regulate innate responses following challenge with common causes of invasive bacterial disease.
Journal of Immunology, 185 (5), .
(doi:10.4049/jimmunol.1000805).
(PMID:20656927)
Abstract
Peripheral blood monocytes represent the rapid response component of mononuclear phagocyte host defense, generating vigorous but finite antibacterial responses. We investigated the fate of highly purified primary human monocytes following phagocytosis of different bacteria. Exposure to high bacterial loads resulted in rapid loss of cell viability and decreased functional competence. Cell death typically involved classical apoptosis. Exposure to high numbers of Escherichia coli and Klebsiella pneumoniae induced nonapoptotic death with loss of cell membrane integrity, marked disruption of phagolysosomes, and caspase-1 activation, while a subset of cells also released caspase-1-regulated extracellular traps. Classical apoptosis increased if extracellular bacterial replication was reduced and decreased if intracellular ATP levels were reduced during these infections. Both classical apoptosis and the alternative forms of cell death allowed monocytes, whose functional competence was exhausted, to downregulate reactive oxygen species and proinflammatory cytokine responses. In contrast, sustained stimulation of glycolytic metabolism and mitochondrial oxidative phosphorylation, with associated hypoxia inducible factor-1alpha upregulation, maintained intracellular ATP levels and prolonged monocyte functional longevity, as assessed by maintenance of phagocytosis, reactive oxygen species production, and proinflammatory cytokine generation. Monocyte innate responses to bacteria are short-lived and are limited by an intrinsic program of apoptosis, a response that is subverted by overwhelming infection with E. coli and K. pneumoniae or bacterial stimulation of cell metabolism. In this regard, the fate of monocytes following bacterial challenge more closely resembles neutrophils than macrophages.
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e-pub ahead of print date: 23 July 2010
Published date: 1 September 2010
Organisations:
Clinical & Experimental Sciences
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Local EPrints ID: 346779
URI: http://eprints.soton.ac.uk/id/eprint/346779
ISSN: 0022-1767
PURE UUID: 610004b5-ef21-4728-8c37-c861a4b010ed
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Date deposited: 30 Jan 2013 14:24
Last modified: 15 Mar 2024 03:42
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Author:
Steve J. Webster
Author:
Marc Daigneault
Author:
Martin A. Bewley
Author:
Julie A. Preston
Author:
Helen M. Marriott
Author:
Sarah R. Walmsley
Author:
Moira K.B. Whyte
Author:
David H. Dockrell
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