Dual-Specificity Phosphatase 14 (DUSP14/MKP6) Negatively Regulates TCR Signaling by Inhibiting TAB1 Activation

Yang, Chao-Ping; Li, Ju‐Pi; Chiu, Li-Li; Lan, Joung‐Liang; Chen, Der‐Yuan; Chuang, Huai‐Chia; Huang, Ching-Yu; Tan, Tse‐Hua

doi:10.4049/jimmunol.1300989

Cited by 58 publications

(70 citation statements)

References 31 publications

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“…However, the results of comparison of MKP1 with MKP5 (by evaluating the levels of individual MAPK activities in MKP1 Ϫ/Ϫ versus MKP5 Ϫ/Ϫ mice) suggest that MKP5 is more important for JNK1 dephosphorylation (75) while MKP1 is likely more critical for p38␣ inactivation, at least in macrophages (85). Other members of the dual-specificity phosphatase family may also regulate JNK pathways by acting on upstream signaling proteins, such as the Tab1/TAK1 complex (86) or the focal adhesion kinase (87). Depending on their targets, the latter phosphatases can either inhibit (MKP6/DUSP14) or activate (MKP-x/DUSP22) JNK signaling (87)(88)(89).…”

Section: Phosphatases and Feedback Mechanisms In Control Of Jnk Activitymentioning

confidence: 97%

JNK Signaling: Regulation and Functions Based on Complex Protein-Protein Partnerships

Zeke

Misheva

Reményi

et al. 2016

Microbiol Mol Biol Rev

368

325

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SUMMARYThe c-Jun N-terminal kinases (JNKs), as members of the mitogen-activated protein kinase (MAPK) family, mediate eukaryotic cell responses to a wide range of abiotic and biotic stress insults. JNKs also regulate important physiological processes, including neuronal functions, immunological actions, and embryonic development, via their impact on gene expression, cytoskeletal protein dynamics, and cell death/survival pathways. Although the JNK pathway has been under study for >20 years, its complexity is still perplexing, with multiple protein partners of JNKs underlying the diversity of actions. Here we review the current knowledge of JNK structure and isoforms as well as the partnerships of JNKs with a range of intracellular proteins. Many of these proteins are direct substrates of the JNKs. We analyzed almost 100 of these target proteins in detail within a framework of their classification based on their regulation by JNKs. Examples of these JNK substrates include a diverse assortment of nuclear transcription factors (Jun, ATF2, Myc, Elk1), cytoplasmic proteins involved in cytoskeleton regulation (DCX, Tau, WDR62) or vesicular transport (JIP1, JIP3), cell membrane receptors (BMPR2), and mitochondrial proteins (Mcl1, Bim). In addition, because upstream signaling components impact JNK activity, we critically assessed the involvement of signaling scaffolds and the roles of feedback mechanisms in the JNK pathway. Despite a clarification of many regulatory events in JNK-dependent signaling during the past decade, many other structural and mechanistic insights are just beginning to be revealed. These advances open new opportunities to understand the role of JNK signaling in diverse physiological and pathophysiological states.

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Section: Phosphatases and Feedback Mechanisms In Control Of Jnk Activitymentioning

confidence: 97%

JNK Signaling: Regulation and Functions Based on Complex Protein-Protein Partnerships

Zeke

Misheva

Reményi

et al. 2016

Microbiol Mol Biol Rev

368

325

View full text Add to dashboard Cite

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“…If TAB1 (55 kDa) is not detected in the coimmunoprecipitation assays (17), it is likely that TAB1 is not properly separated from the Ig heavy chain in the immunoblot. In fact, a direct interaction of DUSP14 with TAB1, but not with TAK1, has been demonstrated using purified proteins and Alpha technology/protein-protein interaction assays (PerkinElmer, Waltham, MA, USA) (13) as well as in situ proximity ligation assay (PLA) (in this report). DUSP14 is also reported to directly interact with TAK1 in the pull-down assay using immunopurified proteins (18); however, DUSP14- and TAK1-immunopurified complexes may contain coimmunoprecipitated TAB1 proteins.…”

mentioning

confidence: 77%

“…Myc-DUSP14, Flag-DUSP14, Flag-DUSP14 (C111S) mutant, Flag-TAB1, Flag-TAK1 (13), Flag-DUSP14 (K103R) mutant (19), and Flag-TRAF2 plasmids (20) were previously described. Human DUSP14 cDNA was used for these DUSP14 constructs.…”

Section: Methodsmentioning

confidence: 99%

“…DUSP14 is also reported to directly interact with TAK1 in the pull-down assay using immunopurified proteins (18); however, DUSP14- and TAK1-immunopurified complexes may contain coimmunoprecipitated TAB1 proteins. DUSP14 indirectly interacts with TAK1 through TAB1 (13). Thus, DUSP14 inhibits T-cell activation during TCR signaling by dephosphorylating TAB1, leading to inactivation of TAK1, IKK, and JNK (13).…”

mentioning

confidence: 99%

“…DUSP14 indirectly interacts with TAK1 through TAB1 (13). Thus, DUSP14 inhibits T-cell activation during TCR signaling by dephosphorylating TAB1, leading to inactivation of TAK1, IKK, and JNK (13). We further demonstrated that DUSP14 is Lys63-linked ubiquitination by the E3 ligase TNF receptor associated factor (TRAF)2, and this modification stimulates its phosphatase activity (19).…”

mentioning

confidence: 99%

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Induction of DUSP14 ubiquitination by PRMT5‐mediated arginine methylation

et al. 2018

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Dual-specificity phosphatase (DUSP)14 (also known as MAP-kinase phosphatase 6) inhibits T-cell receptor (TCR) signaling and T-cell–mediated immune responses by inactivation of the TGF-β activated kinase 1 binding protein (TAB1)–TGF-β activated kinase 1 (TAK1) complex and ERK. DUSP14 phosphatase activity is induced by the E3 ligase TNF receptor associated factor (TRAF)2-mediated Lys63-linked ubiquitination. Here we report an interaction between DUSP14 and protein arginine methyltransferase (PRMT)5 by proximity ligation assay; similarly, DUSP14 directly interacted with TAB1 but not TAK1. DUSP14 is methylated by PRMT5 at arginine 17, 38, and 45 residues. The DUSP14 triple-methylation mutant was impaired in PRMT5-mediated arginine methylation, TRAF2-mediated lysine ubiquitination, and DUSP14 phosphatase activity. Consistently, DUSP14 methylation, TRAF2 binding, and DUSP14 ubiquitination were attenuated by PRMT5 short hairpin RNA knockdown. Furthermore, DUSP14 was inducibly interacted with PRMT5 and was methylated during TCR signaling in T cells. Together, these findings reveal a novel regulatory mechanism of DUSP14 by which PRMT5-mediated arginine methylation may sequentially stimulate TRAF2-mediated DUSP14 ubiquitination and phosphatase activity, leading to inhibition of TCR signaling.—Yang, C.-Y., Chiu, L.-L., Chang, C.-C., Chuang, H.-C., Tan, T.-H. Induction of DUSP14 ubiquitination by PRMT5-mediated arginine methylation.

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Itch attenuates CD4 T‐cell proliferation in mice by limiting WBP2 protein stability

et al. 2020

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To mount an antipathogen response, CD4 T cells must undergo rapid cell proliferation; however, poorly controlled expansion can result in diseases such as autoimmunity. One important regulator of T-cell activity is the E3 ubiquitin ligase Itch. Itch deficient patients suffer from extensive autoinflammation. Similarly, Itch deficient mice exhibit inflammation characterized by high numbers of activated CD4 T cells. While the role of Itch in limiting CD4 T-cell cytokine production has been extensively studied, it is less clear whether and how Itch regulates proliferation of these cells. We determined that Itch deficient CD4 T cells are hyperproliferative in vitro and in vivo, due to increased S phase entry. Whole cell proteomics analysis of Itch deficient primary mouse CD4 T cells revealed increased abundance of the β-catenin coactivator WW domain-binding protein 2 (WBP2). Furthermore, Itch deficient cells demonstrate increased WBP2 protein stability, and Itch and WBP2 interact in CD4 T cells. Knockdown of WBP2 in CD4 T cells caused reduced proliferation. Together, our data support that Itch attenuates CD4 T cell proliferation by promoting WBP2 degradation. This study identifies novel roles for Itch and WBP2 in regulating CD4 T cell proliferation, providing insight into how Itch may prevent inflammation.

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Dual-Specificity Phosphatase 14 (DUSP14/MKP6) Negatively Regulates TCR Signaling by Inhibiting TAB1 Activation

Cited by 58 publications

References 31 publications

JNK Signaling: Regulation and Functions Based on Complex Protein-Protein Partnerships

JNK Signaling: Regulation and Functions Based on Complex Protein-Protein Partnerships

Induction of DUSP14 ubiquitination by PRMT5‐mediated arginine methylation

Itch attenuates CD4 T‐cell proliferation in mice by limiting WBP2 protein stability

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