Addition of a Viral Immunomodulatory Domain to Etanercept Generates a Bifunctional Chemokine and TNF Inhibitor
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2020Access:
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Alí Alejo, Carolina Sánchez, Sylvie Amu, Padraic G. Fallon and Antonio Alcamí 2, 'Addition of a Viral Immunomodulatory Domain to Etanercept Generates a Bifunctional Chemokine and TNF Inhibitor', 2020, Journal of Clinical Medicine;, 9;, 1; https://doi.org/10.3390/jcm9010025Download Item:
Abstract:
The inhibition of tumor necrosis factor (TNF) through the use of either antibodies or soluble receptors is a highly effective strategy for the clinical control of chronic inflammatory conditions such as rheumatoid arthritis. Different viruses have similarly exploited this concept by expressing a set of specifically tailored secreted TNF decoy receptors to block host inflammatory responses. Poxviruses have been shown to encode at least two distinct molecules, termed Cytokine response modifier D (CrmD) and CrmB, in which a TNF inhibitor is combined with a chemokine inhibitor on the same molecule. The ectromelia virus CrmD protein was found to be a critical determinant of virulence in vivo, being able to control local inflammation to allow further viral spread and the establishment of a lethal infection. Strikingly, both the TNF and the chemokine inhibitory domains are required for the full activity of CrmD, suggesting a model in which inhibition of TNF is supported by the concomitant blockade of a reduced set of chemokines. Inspired by this model, we reasoned that a similar strategy could be applied to modify the clinically used human TNF receptor (etanercept), producing a generation of novel, more effective therapeutic agents. Here we show the analysis of a set of fusion proteins derived from etanercept by addition of a viral chemokine-binding protein. A bifunctional inhibitor capable of binding to and blocking the activity of TNF as well as a set of chemokines is generated that is active in the prevention of arthritis in a murine disease model.
Sponsor
Grant Number
European Union (EU)
RTI2018-097581-B-I00
Spanish Ministry of Science and Innovation
TRA2009-0038
Spanish Ministry of Science and Innovation
SAF2012-38957
Science Foundation Ireland
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http://people.tcd.ie/pfallonDescription:
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Author: Amu, Sylvie; Fallon, Padraic
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Journal of Clinical Medicine;9;
1;
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tumor necrosis factor, chemokine, receptor, inflammation, immune evasion, virusSubject (TCD):
Cancer , Immunology, Inflammation & Infection , CHEMOKINES , Immune evasion , Inflammation , Receptors , TUMOR NECROSIS FACTOR , VIRUSDOI:
https://doi.org/10.3390/jcm9010025Metadata
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