OX40L blockade is therapeutic in arthritis, despite promoting osteoclastogenesis
OX40L blockade is therapeutic in arthritis, despite promoting osteoclastogenesis
An immune response is essential for protection against infection, but, in many individuals, aberrant responses against self tissues cause autoimmune diseases such as rheumatoid arthritis (RA). How to diminish the autoimmune response while not augmenting infectious risk is a challenge. Modern targeted therapies such as anti-TNF or anti-CD20 antibodies ameliorate disease, but at the cost of some increase in infectious risk. Approaches that might specifically reduce autoimmunity and tissue damage without infectious risk would be important. Here we describe that TNF superfamily member OX40 ligand (OX40L; CD252), which is expressed predominantly on antigen-presenting cells, and its receptor OX40 (on activated T cells), are restricted to the inflamed joint in arthritis in mice with collagen-induced arthritis and humans with RA. Blockade of this pathway in arthritic mice reduced inflammation and restored tissue integrity predominantly by inhibiting inflammatory cytokine production by OX40L-expressing macrophages. Furthermore, we identify a previously unknown role for OX40L in steady-state bone homeostasis. This work shows that more targeted approaches may augment the "therapeutic window" and increase the benefit/risk in RA, and possibly other autoimmune diseases, and are thus worth testing in humans.
2289-2294
Gwyer Findlay, Emily
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Danks, Lynett
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Madden, Jodie
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Cavanagh, Mary M.
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McNamee, Kay
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McCann, Fiona
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Snelgrove, Robert J.
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Shaw, Stevan
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Feldmann, Marc
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Taylor, Peter Charles
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Horwood, Nicola J.
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Hussell, Tracy
026fb130-46fe-4cc0-8d1f-20182b07e9fe
27 January 2014
Gwyer Findlay, Emily
b6787bbb-66ad-435c-ad2c-c18ffaf6b7d8
Danks, Lynett
f050a223-ddd2-4f6f-b870-5c958a9523cd
Madden, Jodie
e2ff888b-0516-42c5-ae54-5d3b421a05be
Cavanagh, Mary M.
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McNamee, Kay
8aec0d3f-01f6-4b0e-9001-b6d45ea74fce
McCann, Fiona
032762b3-e98c-44eb-a55b-24324b8f24fd
Snelgrove, Robert J.
57c488b7-6605-40d1-aced-6e019f9927de
Shaw, Stevan
361886b4-c3f7-4799-8563-7548bd7dc60a
Feldmann, Marc
6adf360a-af0e-4256-b5e4-31e5e26e599e
Taylor, Peter Charles
94ff20a6-4ba0-4ca8-95a2-023a54d4a2c5
Horwood, Nicola J.
5827e7a1-66c0-48db-9780-23b7db63911e
Hussell, Tracy
026fb130-46fe-4cc0-8d1f-20182b07e9fe
Gwyer Findlay, Emily, Danks, Lynett, Madden, Jodie, Cavanagh, Mary M., McNamee, Kay, McCann, Fiona, Snelgrove, Robert J., Shaw, Stevan, Feldmann, Marc, Taylor, Peter Charles, Horwood, Nicola J. and Hussell, Tracy
(2014)
OX40L blockade is therapeutic in arthritis, despite promoting osteoclastogenesis.
Proceedings of the National Academy of Sciences of the United States of America, 111 (6), .
(doi:10.1073/pnas.1321071111).
Abstract
An immune response is essential for protection against infection, but, in many individuals, aberrant responses against self tissues cause autoimmune diseases such as rheumatoid arthritis (RA). How to diminish the autoimmune response while not augmenting infectious risk is a challenge. Modern targeted therapies such as anti-TNF or anti-CD20 antibodies ameliorate disease, but at the cost of some increase in infectious risk. Approaches that might specifically reduce autoimmunity and tissue damage without infectious risk would be important. Here we describe that TNF superfamily member OX40 ligand (OX40L; CD252), which is expressed predominantly on antigen-presenting cells, and its receptor OX40 (on activated T cells), are restricted to the inflamed joint in arthritis in mice with collagen-induced arthritis and humans with RA. Blockade of this pathway in arthritic mice reduced inflammation and restored tissue integrity predominantly by inhibiting inflammatory cytokine production by OX40L-expressing macrophages. Furthermore, we identify a previously unknown role for OX40L in steady-state bone homeostasis. This work shows that more targeted approaches may augment the "therapeutic window" and increase the benefit/risk in RA, and possibly other autoimmune diseases, and are thus worth testing in humans.
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Published date: 27 January 2014
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Local EPrints ID: 479233
URI: http://eprints.soton.ac.uk/id/eprint/479233
ISSN: 0027-8424
PURE UUID: 10b3df72-16bd-4e10-9e71-0852bfda27a3
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Date deposited: 20 Jul 2023 16:47
Last modified: 17 Mar 2024 04:14
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Author:
Emily Gwyer Findlay
Author:
Lynett Danks
Author:
Jodie Madden
Author:
Mary M. Cavanagh
Author:
Kay McNamee
Author:
Fiona McCann
Author:
Robert J. Snelgrove
Author:
Stevan Shaw
Author:
Marc Feldmann
Author:
Peter Charles Taylor
Author:
Nicola J. Horwood
Author:
Tracy Hussell
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