Catalytic Activation of the Phosphatase MKP-3 by ERK2 Mitogen-Activated Protein Kinase

Camps, Montserrat; Nichols, Anthony; Gilliéron, Corine; Antonsson, Bruno; Muda, Marco; Chabert, Christian; Boschert, Ursula; Arkinstall, Steve

doi:10.1126/science.280.5367.1262

Cited by 469 publications

(458 citation statements)

References 17 publications

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“…Jacobs et al (1999) demonstrated that FXFP is an evolutionarily conserved motif that mediates binding of p42 MAPK to various substrate proteins. The discovery that both substrate specificity and tight substrate binding are conferred by the amino terminus of the related phosphatase MKP-3 (Camps et al, 1998;Muda et al, 1998) supports the hypothesis that the FNFP motif within XCL100 mediates its role as a p42 MAPK substrate. In addition, the absence of an analogous experimentally defined JNK docking site (Yang et al, 1998a,b;Jacobs et al, 1999) in XCL100 is consistent with our conclusion that this phosphatase is a poor substrate for JNK.…”

Section: Xcl100 Functions As Both Enzyme and Substrate For P42 Mapkmentioning

confidence: 61%

“…Moreover, p42 MAPK may positively regulate XCL100 through at least two other mechanisms: activation of p42 MAPK can induce expression of the closely related phosphatases MKP-1 and MKP-2 (Brondello et al, 1997), and, by analogy to other MKP family members, p42 MAPK may catalytically activate XCL100 by binding to its amino terminus (Camps et al, 1998;Dowd et al, 1998;Fjeld et al, 2000;Chen et al, 2001;Slack et al, 2001). The presence of multiple activation mechanisms may increase the robustness of the p42 MAPK/XCL100 system.…”

Section: Xcl100 Stabilization Confers Negative Feedback Upon P42 Mapkmentioning

confidence: 99%

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Activation of p42 Mitogen-activated Protein Kinase (MAPK), but not c-Jun NH₂-Terminal Kinase, Induces Phosphorylation and Stabilization of MAPK PhosphataseXCL100 inXenopusOocytes

Sohaskey

Ferrell

2002

MBoC

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Dual-specificity protein phosphatases are implicated in the direct down-regulation of mitogenactivated protein kinase (MAPK) activity in vivo. Accumulating evidence suggests that these phosphatases are components of negative feedback loops that restore MAPK activity to low levels after diverse physiological responses. Limited information exists, however, regarding their posttranscriptional regulation. We cloned two Xenopus homologs of the mammalian dual-specificity MAPK phosphatases MKP-1/CL100 and found that overexpression of XCL100 in G2-arrested oocytes delayed or prevented progesterone-induced meiotic maturation. Epitope-tagged XCL100 was phosphorylated on serine during G2 phase, and on serine and threonine in a p42 MAPKdependent manner during M phase. Threonine phosphorylation mapped to a single residue, threonine 168. Phosphorylation of XCL100 had no measurable effect on its ability to dephosphorylate p42 MAPK. Similarly, mutation of threonine 168 to either valine or glutamate did not significantly alter the binding affinity of a catalytically inactive XCL100 protein for active p42 MAPK in vivo. XCL100 was a labile protein in G2-arrested and progesterone-stimulated oocytes; surprisingly, its degradation rate was increased more than twofold after exposure to hyperosmolar sorbitol. In sorbitol-treated oocytes expressing a conditionally active ⌬Raf-DD:ER chimera, activation of the p42 MAPK cascade led to phosphorylation of XCL100 and a pronounced decrease in the rate of its degradation. Our results provide mechanistic insight into the regulation of a dual-specificity MAPK phosphatase during meiotic maturation and the adaptation to cellular stress. INTRODUCTIONMembers of the mitogen-activated protein kinase (MAPK) family play fundamental roles in the cellular response to diverse extracellular stimuli, including mitogens, cytokines, and environmental stresses (reviewed by Waskiewicz and Cooper, 1995;Ferrell, 1996;Lewis et al., 1998;Davis, 2000;Pearson et al., 2001). Activation of p42 MAPK and p44 MAPK in quiescent fibroblasts, for example, contributes to the induction of cyclin D expression and entry into the cell cycle (Pagès et al., 1993;Sun et al., 1994;Brondello et al., 1995;Cheng et al., 1998). Constitutive activation of MAPK cascades can cause cell transformation in fibroblasts (Cowley et al., 1994;Mansour et al., 1994) and, in a context-dependent and MAPK-specific manner, either promote or prevent apoptosis (Xia et al., 1995;Meier and Evan, 1998;Bonni et al., 1999). Thus, from a cellular perspective, precise regulation of MAPK activity can literally signify the difference between life and death.The meiotic maturation of Xenopus oocytes provides an elegant system for studying the biochemistry of p42 MAPK regulation. Activation of the p42 MAPK cascade is important at multiple points during maturation: for the initial activation of Cdc2 triggering the G2-M transition (Sagata et al., 1988;Kosako et al., 1994bKosako et al., , 1996Gotoh et al., 1995;Palmer et al., 1998); for Cdc2 reactivation and the suppressi...

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Section: Xcl100 Functions As Both Enzyme and Substrate For P42 Mapkmentioning

confidence: 61%

Section: Xcl100 Stabilization Confers Negative Feedback Upon P42 Mapkmentioning

confidence: 99%

Activation of p42 Mitogen-activated Protein Kinase (MAPK), but not c-Jun NH₂-Terminal Kinase, Induces Phosphorylation and Stabilization of MAPK PhosphataseXCL100 inXenopusOocytes

Sohaskey

Ferrell

2002

MBoC

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“…Many dual-specificity phosphatases have been identified that act upon various members of the MAP kinase pathway and are grouped as the MAP kinase phosphatase (MKP) family [45]. Several members can efficiently dephosphorylate p38α and p38β [46,47]; however, p38γ and p38δ are resistant to all known MKP family members. In addition, other types of phosphatases such as serine/ threonine protein phosphotase type 2C (PP2C) has been shown to have a role in downregulating the MAP kinase HOG1 pathway as well as negatively regulating human MKK6 and MKK4 levels in vitro and in vivo [48][49][50][51].…”

Section: Downregulation Of the P38 Signaling Pathwaymentioning

confidence: 99%

Activation and signaling of the p38 MAP kinase pathway

2005

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The family members of the mitogen-activated protein (MAP) kinases mediate a wide variety of cellular behaviors in response to extracellular stimuli. One of the four main sub-groups, the p38 group of MAP kinases, serve as a nexus for signal transduction and play a vital role in numerous biological processes. In this review, we highlight the known characteristics and components of the p38 pathway along with the mechanism and consequences of p38 activation. We focus on the role of p38 as a signal transduction mediator and examine the evidence linking p38 to inflammation, cell cycle, cell death, development, cell differentiation, senescence and tumorigenesis in specific cell types. Upstream and downstream components of p38 are described and questions remaining to be answered are posed. Finally, we propose several directions for future research on p38.

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“…Recent studies suggest that the N-terminal noncatalytic domain of MKP-3 is responsible for tight binding to its substrates p44-ERK1 and p42-ERK2 . Moreover, MKP-3 is activated by binding to puri®ed ERK2 and this activation is independent of protein kinase activity (Camps et al, 1998). Whether this is a common mechanism for the regulation of other members of the MAP kinase phosphatase family remains to be determined.…”

Section: Binding Of Mkp5 To Endogenous Map Kinasesmentioning

confidence: 99%

“…Nevertheless, recent in vitro studies suggest that MKP-3/PYST1 (Muda et al, 1996a;Mourey et al, 1996;Groom et al, 1996) and M3/6/ hVH-5 (Theodosiou et al, 1996;Martell et al, 1995) are highly selective in inactivating either ERK, or JNK/SAPK and p38 MAP kinases, respectively (Groom et al, 1996;Muda et al, 1996bMuda et al, , 1998. The N-terminal non-catalytic domain of MKP-3 appears to be responsible for binding the ERK2 MAP kinase, thus directing the speci®city of this phosphatase Camps et al, 1998).…”

Section: Introductionmentioning

confidence: 99%

MKP5, a new member of the MAP kinase phosphatase family, which selectively dephosphorylates stress-activated kinases

Theodosiou

Smith

Gillieron³

et al. 1999

Oncogene

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133

109

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Dual-speci®city protein tyrosine phosphatases are a burgeoning family of enzymes, some of which, the MKPs, are implicated in the regulation of mitogenactivated protein (MAP) kinases. MKPs have been shown to reverse the activation of the MAP kinases by hydrolyzing phosphothreonine and phosphotyrosine residues present in the substrates. Here we describe the characterization of a novel member of the MKP family, MKP5. The MKP5 gene, which maps to human chromosome 1q32, is expressed tissue-speci®cally as two transcripts of approximately 3.4 and 2.4 kb in human liver and skeletal muscle. When expressed in mammalian cells, MKP5 blocks the enzymatic activation of MAP kinases with the selectivity p38&JNK/ SAPK44ERK. Immunoprecipitation of endogenous MAP kinases by the catalytically inactive transfected MKP5 demonstrates that it preferentially binds to the p38 and JNK/SAPK kinases. These ®ndings suggest that the selectivity of this phosphatase may be determined at least in part at the level of substrate binding.

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Catalytic Activation of the Phosphatase MKP-3 by ERK2 Mitogen-Activated Protein Kinase

Cited by 469 publications

References 17 publications

Activation of p42 Mitogen-activated Protein Kinase (MAPK), but not c-Jun NH₂-Terminal Kinase, Induces Phosphorylation and Stabilization of MAPK PhosphataseXCL100 inXenopusOocytes

Activation of p42 Mitogen-activated Protein Kinase (MAPK), but not c-Jun NH₂-Terminal Kinase, Induces Phosphorylation and Stabilization of MAPK PhosphataseXCL100 inXenopusOocytes

Activation and signaling of the p38 MAP kinase pathway

MKP5, a new member of the MAP kinase phosphatase family, which selectively dephosphorylates stress-activated kinases

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Catalytic Activation of the Phosphatase MKP-3 by ERK2 Mitogen-Activated Protein Kinase

Cited by 469 publications

References 17 publications

Activation of p42 Mitogen-activated Protein Kinase (MAPK), but not c-Jun NH2-Terminal Kinase, Induces Phosphorylation and Stabilization of MAPK PhosphataseXCL100 inXenopusOocytes

Activation of p42 Mitogen-activated Protein Kinase (MAPK), but not c-Jun NH2-Terminal Kinase, Induces Phosphorylation and Stabilization of MAPK PhosphataseXCL100 inXenopusOocytes

Activation and signaling of the p38 MAP kinase pathway

MKP5, a new member of the MAP kinase phosphatase family, which selectively dephosphorylates stress-activated kinases

Contact Info

Product

Resources

About

Activation of p42 Mitogen-activated Protein Kinase (MAPK), but not c-Jun NH₂-Terminal Kinase, Induces Phosphorylation and Stabilization of MAPK PhosphataseXCL100 inXenopusOocytes

Activation of p42 Mitogen-activated Protein Kinase (MAPK), but not c-Jun NH₂-Terminal Kinase, Induces Phosphorylation and Stabilization of MAPK PhosphataseXCL100 inXenopusOocytes