IL-27 receptor signaling regulates CD4+ T cell chemotactic responses during infection.
IL-27 receptor signaling regulates CD4+ T cell chemotactic responses during infection.
IL-27 exerts pleiotropic suppressive effects on naive and effector T cell populations during infection and inflammation. Surprisingly, however, the role of IL-27 in restricting or shaping effector CD4+ T cell chemotactic responses, as a mechanism to reduce T cell–dependent tissue inflammation, is unknown. In this study, using Plasmodium berghei NK65 as a model of a systemic, proinflammatory infection, we demonstrate that IL-27R signaling represses chemotaxis of infection-derived splenic CD4+ T cells in response to the CCR5 ligands, CCL4 and CCL5. Consistent with these observations, CCR5 was expressed on significantly higher frequencies of splenic CD4+ T cells from malaria-infected, IL-27R–deficient (WSX-1−/−) mice than from infected wild-type mice. We find that IL-27 signaling suppresses splenic CD4+ T cell CCR5-dependent chemotactic responses during infection by restricting CCR5 expression on CD4+ T cell subtypes, including Th1 cells, and also by controlling the overall composition of the CD4+ T cell compartment. Diminution of the Th1 response in infected WSX-1−/− mice in vivo by neutralization of IL-12p40 attenuated CCR5 expression by infection-derived CD4+ T cells and also reduced splenic CD4+ T cell chemotaxis toward CCL4 and CCL5. These data reveal a previously unappreciated role for IL-27 in modulating CD4+ T cell chemotactic pathways during infection, which is related to its capacity to repress Th1 effector cell development. Thus, IL-27 appears to be a key cytokine that limits the CCR5-CCL4/CCL5 axis during inflammatory settings.
4553–4561
Gwyer, Findlay E
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Villegas-Mendez, A
dc9242d0-5ebb-4e51-bfd2-dcd14f8282df
de, Souza JB
55f03a81-b4f3-4294-8a4d-ba578bd3b696
Inkson, CA
7b1058b3-8625-412e-9af5-8c346872190a
Shaw, TN
188e1c53-91c0-4a8e-84e5-df2356accbed
Saris, CJ
953f8f7a-b23a-4f71-809f-93726ff21221
Hunter, CA
b74bb768-a57d-4fa2-8029-95017a5a10b5
Riley, EM
88dd64e4-7596-4016-93a8-f376dab38069
Couper, KN
d054fad4-5bcc-4426-aeab-511fffbbfc10
1 May 2013
Gwyer, Findlay E
b6787bbb-66ad-435c-ad2c-c18ffaf6b7d8
Villegas-Mendez, A
dc9242d0-5ebb-4e51-bfd2-dcd14f8282df
de, Souza JB
55f03a81-b4f3-4294-8a4d-ba578bd3b696
Inkson, CA
7b1058b3-8625-412e-9af5-8c346872190a
Shaw, TN
188e1c53-91c0-4a8e-84e5-df2356accbed
Saris, CJ
953f8f7a-b23a-4f71-809f-93726ff21221
Hunter, CA
b74bb768-a57d-4fa2-8029-95017a5a10b5
Riley, EM
88dd64e4-7596-4016-93a8-f376dab38069
Couper, KN
d054fad4-5bcc-4426-aeab-511fffbbfc10
Gwyer, Findlay E, Villegas-Mendez, A, de, Souza JB, Inkson, CA, Shaw, TN, Saris, CJ, Hunter, CA, Riley, EM and Couper, KN
(2013)
IL-27 receptor signaling regulates CD4+ T cell chemotactic responses during infection.
Journal of immunology (Baltimore, Md. : 1950), 190 (9), .
(doi:10.4049/jimmunol.1202916).
Abstract
IL-27 exerts pleiotropic suppressive effects on naive and effector T cell populations during infection and inflammation. Surprisingly, however, the role of IL-27 in restricting or shaping effector CD4+ T cell chemotactic responses, as a mechanism to reduce T cell–dependent tissue inflammation, is unknown. In this study, using Plasmodium berghei NK65 as a model of a systemic, proinflammatory infection, we demonstrate that IL-27R signaling represses chemotaxis of infection-derived splenic CD4+ T cells in response to the CCR5 ligands, CCL4 and CCL5. Consistent with these observations, CCR5 was expressed on significantly higher frequencies of splenic CD4+ T cells from malaria-infected, IL-27R–deficient (WSX-1−/−) mice than from infected wild-type mice. We find that IL-27 signaling suppresses splenic CD4+ T cell CCR5-dependent chemotactic responses during infection by restricting CCR5 expression on CD4+ T cell subtypes, including Th1 cells, and also by controlling the overall composition of the CD4+ T cell compartment. Diminution of the Th1 response in infected WSX-1−/− mice in vivo by neutralization of IL-12p40 attenuated CCR5 expression by infection-derived CD4+ T cells and also reduced splenic CD4+ T cell chemotaxis toward CCL4 and CCL5. These data reveal a previously unappreciated role for IL-27 in modulating CD4+ T cell chemotactic pathways during infection, which is related to its capacity to repress Th1 effector cell development. Thus, IL-27 appears to be a key cytokine that limits the CCR5-CCL4/CCL5 axis during inflammatory settings.
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Published date: 1 May 2013
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Local EPrints ID: 481063
URI: http://eprints.soton.ac.uk/id/eprint/481063
ISSN: 0022-1767
PURE UUID: ce9f1e74-cd10-4fb4-be74-5c2326fadb9d
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Date deposited: 15 Aug 2023 16:43
Last modified: 17 Mar 2024 04:15
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Author:
Findlay E Gwyer
Author:
A Villegas-Mendez
Author:
Souza JB de
Author:
CA Inkson
Author:
TN Shaw
Author:
CJ Saris
Author:
CA Hunter
Author:
EM Riley
Author:
KN Couper
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