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      Beta Interferon Production Is Regulated by p38 Mitogen-Activated Protein Kinase in Macrophages via both MSK1/2- and Tristetraprolin-Dependent Pathways

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          ABSTRACT

          Autocrine or paracrine signaling by beta interferon (IFN-β) is essential for many of the responses of macrophages to pathogen-associated molecular patterns. This feedback loop contributes to pathological responses to infectious agents and is therefore tightly regulated. We demonstrate here that macrophage expression of IFN-β is negatively regulated by mitogen- and stress-activated kinases 1 and 2 (MSK1/2). Lipopolysaccharide (LPS)-induced expression of IFN-β was elevated in both MSK1/2 knockout mice and macrophages. Although MSK1 and -2 promote the expression of the anti-inflammatory cytokine interleukin 10, it did not strongly contribute to the ability of MSKs to regulate IFN-β expression. Instead, MSK1 and -2 inhibit IFN-β expression via the induction of dual-specificity phosphatase 1 (DUSP1), which dephosphorylates and inactivates the mitogen-activated protein kinases p38 and Jun N-terminal protein kinase (JNK). Prolonged LPS-induced activation of p38 and JNK, phosphorylation of downstream transcription factors, and overexpression of IFN-β mRNA and protein were similar in MSK1/2 and DUSP1 knockout macrophages. Two distinct mechanisms were implicated in the overexpression of IFN-β: first, JNK-mediated activation of c-jun, which binds to the IFN-β promoter, and second, p38-mediated inactivation of the mRNA-destabilizing factor tristetraprolin, which we show is able to target the IFN-β mRNA.

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          Mitogen-activated protein kinases in innate immunity.

          Following pathogen infection or tissue damage, the stimulation of pattern recognition receptors on the cell surface and in the cytoplasm of innate immune cells activates members of each of the major mitogen-activated protein kinase (MAPK) subfamilies--the extracellular signal-regulated kinase (ERK), p38 and Jun N-terminal kinase (JNK) subfamilies. In conjunction with the activation of nuclear factor-κB and interferon-regulatory factor transcription factors, MAPK activation induces the expression of multiple genes that together regulate the inflammatory response. In this Review, we discuss our current knowledge about the regulation and the function of MAPKs in innate immunity, as well as the importance of negative feedback loops in limiting MAPK activity to prevent host tissue damage. We also examine how pathogens have evolved complex mechanisms to manipulate MAPK activation to increase their virulence. Finally, we consider the potential of the pharmacological targeting of MAPK pathways to treat autoimmune and inflammatory diseases.
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            JNK1: a protein kinase stimulated by UV light and Ha-Ras that binds and phosphorylates the c-Jun activation domain.

            The ultraviolet (UV) response of mammalian cells is characterized by a rapid and selective increase in gene expression mediated by AP-1 and NF-kappa B. The effect on AP-1 transcriptional activity results, in part, from enhanced phosphorylation of the c-Jun NH2-terminal activation domain. Here, we describe the molecular cloning and characterization of JNK1, a distant relative of the MAP kinase group that is activated by dual phosphorylation at Thr and Tyr during the UV response. Significantly, Ha-Ras partially activates JNK1 and potentiates the activation caused by UV. JNK1 binds to the c-Jun transactivation domain and phosphorylates it on Ser-63 and Ser-73. Thus, JNK1 is a component of a novel signal transduction pathway that is activated by oncoproteins and UV irradiation. These properties indicate that JNK1 activation may play an important role in tumor promotion.
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              The stress-activated protein kinase subfamily of c-Jun kinases.

              The mitogen-activated protein (MAP) kinases Erk-1 and Erk-2 are proline-directed kinases that are themselves activated through concomitant phosphorylation of tyrosine and threonine residues. The kinase p54 (M(r) 54,000), which was first isolated from cycloheximide-treated rats, is proline-directed like Erks-1/2, and requires both Tyr and Ser/Thr phosphorylation for activity. p54 is, however, distinct from Erks-1/2 in its substrate specificity, being unable to phosphorylate pp90rsk but more active in phosphorylating the c-Jun transactivation domain. Molecular cloning of p54 reveals a unique subfamily of extracellularly regulated kinases. Although they are 40-45% identical in sequence to Erks-1/2, unlike Erks-1/2 the p54s are only poorly activated in most cells by mitogens or phorbol esters. However, p54s are the principal c-Jun N-terminal kinases activated by cellular stress and tumour necrosis factor (TNF)-alpha, hence they are designated stress-activated protein kinases, or SAPKs. SAPKs are also activated by sphingomyelinase, which elicits a subset of cellular responses to TNF-alpha (ref. 9). SAPKs therefore define a new TNF-alpha and stress-activated signalling pathway, possibly initiated by sphingomyelin-based second messengers, which regulates the activity of c-Jun.
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                Author and article information

                Journal
                Mol Cell Biol
                Mol. Cell. Biol
                mcb
                mcb
                MCB
                Molecular and Cellular Biology
                American Society for Microbiology (1752 N St., N.W., Washington, DC )
                0270-7306
                1098-5549
                17 October 2016
                19 December 2016
                1 January 2017
                19 December 2016
                : 37
                : 1
                : e00454-16
                Affiliations
                [a ]MRC Protein Phosphorylation Unit, School of Life Sciences, Sir James Black Centre, University of Dundee, Dundee, United Kingdom
                [b ]Division of Cell Signaling and Immunology, School of Life Sciences, Sir James Black Centre, University of Dundee, Dundee, United Kingdom
                [c ]Institute of Inflammation and Ageing, College of Medical and Dental Sciences, University of Birmingham, Birmingham, United Kingdom
                Author notes
                Address correspondence to J. Simon C. Arthur, j.s.c.arthur@ 123456dundee.ac.uk .

                V.A.M. and D.R. contributed equally to the study.

                Citation McGuire VA, Rosner D, Ananieva O, Ross EA, Elcombe SE, Naqvi S, van den Bosch MMW, Monk CE, Ruiz-Zorrilla Diez T, Clark AR, Arthur JSC. 2017. Beta interferon production is regulated by p38 mitogen-activated protein kinase in macrophages via both MSK1/2- and tristetraprolin-dependent pathways. Mol Cell Biol 37:e00454-16. https://doi.org/10.1128/MCB.00454-16.

                Article
                00454-16
                10.1128/MCB.00454-16
                5192081
                27795299
                fd326b91-d866-4129-9221-fa9def88d40e
                Copyright © 2016 McGuire et al.

                This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license.

                History
                : 8 August 2016
                : 15 September 2016
                : 7 October 2016
                Page count
                Figures: 10, Tables: 0, Equations: 0, References: 95, Pages: 19, Words: 11336
                Funding
                Funded by: Wellcome Trust https://doi.org/10.13039/100004440
                Award Recipient : Suzanne E. Elcombe
                Funded by: Medical Research Council https://doi.org/10.13039/501100000294
                Award Recipient : J. Simon C. Arthur
                Funded by: Arthritis Research UK https://doi.org/10.13039/501100000341
                Award Recipient : Andrew R. Clark Award Recipient : J. Simon C. Arthur
                Categories
                Research Article
                Custom metadata
                January 2017

                Molecular biology
                creb,dusp1,beta interferon,msk1,msk2,ttp,p38 kinases
                Molecular biology
                creb, dusp1, beta interferon, msk1, msk2, ttp, p38 kinases

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