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Query: EC:2.7.11.24 (
mitogen-activated protein kinase
)
95,810
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Protein kinases and phosphatases regulate the activity of extracellular signal-regulated kinases 1 and 2 (
ERK1
/2) by controlling the phosphorylation of specific residues. We report the physical and functional association of
ERK1
/2 with the
PTP-SL
and STEP protein tyrosine phosphatases (PTPs). Upon binding, the N-terminal domains of
PTP-SL
and STEP were phosphorylated by
ERK1
/2, whereas these PTPs dephosphorylated the regulatory phosphotyrosine residues of
ERK1
/2 and inactivated them. A sequence of 16 amino acids in
PTP-SL
was identified as being critical for
ERK1
/2 binding and termed kinase interaction motif (KIM) (residues 224-239); it was shown to be required for phosphorylation of
PTP-SL
by
ERK1
/2 at Thr253. Co-expression of
ERK2
with catalytically active
PTP-SL
in COS-7 cells impaired the EGF-induced activation of
ERK2
, whereas a
PTP-SL
mutant, lacking PTP activity, increased the
ERK2
response to EGF. This effect was dependent on the presence of the KIM on
PTP-SL
. Furthermore,
ERK1
/2 activity was downregulated in 3T3 cells stably expressing
PTP-SL
. Our findings demonstrate the existence of a conserved
ERK1
/2 interaction motif within the cytosolic non-catalytic domains of
PTP-SL
and STEP, which is required for the regulation of
ERK1
/2 activity and for phosphorylation of the PTPs by these kinases. Our findings suggest that
PTP-SL
and STEP act as physiological regulators of the
ERK1
/2 signaling pathway.
...
PMID:PTP-SL and STEP protein tyrosine phosphatases regulate the activation of the extracellular signal-regulated kinases ERK1 and ERK2 by association through a kinase interaction motif. 985 90
Mitogen-activated protein kinase (MAPK) is inactivated through dephosphorylation of tyrosyl and threonyl regulatory sites. In yeast, both dual-specificity and tyrosine-specific phosphatases are involved in dephosphorylation. In mammals, however, no tyrosine-specific phosphatase has been identified molecularly to dephosphorylate MAPK in vivo. Recently, we and others have cloned a murine tyrosine-specific phosphatase,
PTPBR7
/
PTP-SL
, which is expressed predominantly in the brain. Here we report inactivation of the
extracellular signal-regulated kinase
(
ERK
) family MAPK by
PTPBR7
.
PTPBR7
made complexes with
ERK1
/
ERK2
in vivo and dephosphorylated
ERK1
in vitro. When overexpressed in mammalian cells, wild-type
PTPBR7
suppressed the phosphorylation and activation of
ERK
by epidermal growth factor (EGF), nerve growth factor (NGF), and constitutively active MEK1, a mutant MAPK kinase. In contrast, catalytically inactive and
ERK
-binding-deficient mutants revealed little inhibition on the
ERK
cascade. These results indicate that
PTPBR7
suppresses MAPK directly in vivo.
...
PMID:Inactivation of mitogen-activated protein kinases by a mammalian tyrosine-specific phosphatase, PTPBR7. 1006 21
Activation of ERK/
MAPK
is a key event downstream of RAS. The duration, extent, and timing of
MAPK
activity is integral to signal specificity. Consequently, inactivation of
MAPK
by phosphatases has emerged as a critical element in the precise control of signal output. We have cloned and characterized a novel cytoplasmic protein tyrosine phosphatase, PTP-ER, which is related to mammalian
PCPTP1
, LC-PTP/HePTP, and STEP tyrosine phosphatases. PTP-ER mutants produce extra R7 cells and enhance activated Ras1 signaling. Ectopic expression of PTP-ER dramatically inhibits RAS1/
MAPK
signaling. PTP-ER binds to and inactivates Drosophila ERK/
MAPK
; however, it is unable to dephosphorylate and downregulate Drosophila MAPKSevenmaker. Resistance to PTP-ER activity partially accounts for the Sevenmaker mutant phenotype.
...
PMID:PTP-ER, a novel tyrosine phosphatase, functions downstream of Ras1 to downregulate MAP kinase during Drosophila eye development. 1039 62
ERK1
and
ERK2
associate with the tyrosine phosphatase
PTP-SL
through a kinase interaction motif (KIM) located in the juxtamembrane region of
PTP-SL
. A glutathione S-transferase (GST)-
PTP-SL
fusion protein containing the KIM associated with
ERK1
and
ERK2
as well as with p38/HOG, but not with the related JNK1 kinase or with protein kinase A or C. Accordingly,
ERK2
showed in vitro substrate specificity to phosphorylate GST-
PTP-SL
in comparison with GST-c-Jun. Furthermore, tyrosine dephosphorylation of
ERK2
by the PTP-SLDeltaKIM mutant was impaired. The in vitro association of
ERK1
/2 with GST-
PTP-SL
was highly stable; however, low concentrations of nucleotides partially dissociated the
ERK1
/2.
PTP-SL
complex. Partial deletions of the KIM abrogated the association of
PTP-SL
with
ERK1
/2, indicating that KIM integrity is required for interaction. Amino acid substitution analysis revealed that Arg and Leu residues within the KIM are essential for the interaction and suggested a regulatory role for Ser(231). Finally, coexpression of
PTP-SL
and
ERK2
in COS-7 cells resulted in the retention of
ERK2
in the cytoplasm in a KIM-dependent manner. Our results demonstrate that the noncatalytic region of
PTP-SL
associates with mitogen-activated protein kinases with high affinity and specificity, providing a mechanism for substrate specificity, and suggest a role for
PTP-SL
in the regulation of
mitogen-activated protein kinase
translocation to the nucleus upon activation.
...
PMID:Interaction of mitogen-activated protein kinases with the kinase interaction motif of the tyrosine phosphatase PTP-SL provides substrate specificity and retains ERK2 in the cytoplasm. 1041 10
Protein tyrosine phosphatase
PTP-SL
retains mitogen-activated protein (MAP) kinases in the cytoplasm in an inactive form by association through a kinase interaction motif (KIM) and tyrosine dephosphorylation. The related tyrosine phosphatases
PTP-SL
and STEP were phosphorylated by the cAMP-dependent protein kinase A (PKA). The PKA phosphorylation site on
PTP-SL
was identified as the Ser(231) residue, located within the KIM. Upon phosphorylation of Ser(231),
PTP-SL
binding and tyrosine dephosphorylation of the MAP kinases
extracellular signal-regulated kinase
(
ERK
)1/2 and p38alpha were impaired. Furthermore, treatment of COS-7 cells with PKA activators, or overexpression of the Calpha catalytic subunit of PKA, inhibited the cytoplasmic retention of
ERK2
and p38alpha by wild-type
PTP-SL
, but not by a
PTP-SL
S231A mutant. These findings support the existence of a novel mechanism by which PKA may regulate the activation and translocation to the nucleus of MAP kinases.
...
PMID:A novel regulatory mechanism of MAP kinases activation and nuclear translocation mediated by PKA and the PTP-SL tyrosine phosphatase. 1060 28
ERK1b is an alternatively spliced form of
ERK1
, containing a 26-amino acid insertion between residues 340 and 341 of
ERK1
. Although under most circumstances the kinetics of ERK1b activation are similar to that of
ERK1
and
ERK2
, we have previously found several conditions under which the activation of ERK1b by extracellular stimuli differs from that of other ERKs. We studied the molecular mechanisms that cause this differential regulation of ERK1b and found that ERK1b is altered in its ability to interact with MEK1 and this influenced its subcellular localization but not its kinetics of activation. ERK1b had a decreased ability to phosphorylate Elk1, but this did not change much the transcriptional activity of the latter. Importantly, the interaction of ERK1b with
PTP-SL
, which can act as a
MAPK
phosphatase, shortly after mitogenic stimulation, was significantly affected as well. Using mutants of ERK1b we found that the differential interaction of ERK1b with the three effectors is caused by the site of insertion that abrogates the cytosolic retention sequence/common docking motif of ERKs, and is not dependent on the actual sequence of the insert. Prolonged epidermal growth factor stimulation of Rat1 cells resulted in a differential inactivation and not activation of ERK1b as compared with
ERK1
and
ERK2
. The reduced sensitivity to phosphatases without major differences in the kinetics of activation or activation of substrates, suggests that ERK1b plays a role in the transmission of extracellular signals under conditions of persistent stimulation, where ERK1b and
MAPK
phosphatases are induced, and the activity of
ERK1
and
ERK2
is suppressed.
...
PMID:Altered regulation of ERK1b by MEK1 and PTP-SL and modified Elk1 phosphorylation by ERK1b are caused by abrogation of the regulatory C-terminal sequence of ERKs. 2855 Jan 38
Protein tyrosine phosphatases
PTP-SL
and
PTPBR7
are isoforms belonging to cytosolic membrane-associated and to receptor-like PTPs (RPTPs), respectively. They represent a new family of PTPs with a major role in activation and translocation of MAP kinases. Specifically, the complex formation between
PTP-SL
and
ERK2
involves an unusual interaction leading to the phosphorylation of
PTP-SL
by
ERK2
at Thr253 and the inactivating dephosphorylation of
ERK2
by
PTP-SL
. This interaction is strictly dependent upon a kinase interaction motif (KIM) (residues 224-239) situated at the N terminus of the
PTP-SL
catalytic domain. We report the first crystal structure of the catalytic domain for a member of this family (
PTP-SL
, residues 254-549, identical with residues 361-656 of
PTPBR7
), providing an example of an RPTP with single cytoplasmic domain, which is monomeric, having an unhindered catalytic site. In addition to the characteristic PTP-core structure,
PTP-SL
has an N-terminal helix, possibly orienting the KIM motif upon interaction with the target
ERK2
. An unusual residue in the catalytically important WPD loop promotes formation of a hydrophobically and electrostatically stabilised clamp. This could induce increased rigidity to the WPD loop and therefore reduced catalytic activity, in agreement with our kinetic measurements. A docking model based on the
PTP-SL
structure suggests that, in the complex with
ERK2
, the phosphorylation of
PTP-SL
should be accomplished first. The subsequent dephosphorylation of
ERK2
seems to be possible only if a conformational rearrangement of the two interacting partners takes place.
...
PMID:Crystal structure of PTP-SL/PTPBR7 catalytic domain: implications for MAP kinase regulation. 1149 9
Regulated function of mitogen-activated protein (MAP) kinases involves their selective association through docking sites with both activating
MAP kinase
kinases and inactivating phosphatases, including dual specificity and protein-tyrosine phosphatases (PTP). Site-directed mutagenesis on the mammalian MAP kinases
ERK2
and p38alpha identified within their C-terminal docking grooves two clusters of residues important for association with their regulatory PTPs,
PTP-SL
and STEP.
ERK2
and p38alpha mutations that resembled the sevenmaker gain-of-function mutation in the Rolled D. melanogaster
ERK2
homologue failed to associate with
PTP-SL
, were not retained in the cytosol, and were poorly inactivated by this PTP. Additional
ERK2
mutations at the docking groove showed deficient association and dephosphorylation by
PTP-SL
, although their cytosolic retention was unaffected. Other
ERK2
mutations, resembling gain-of-function mutations in the FUS3 yeast
ERK2
homologue, associated to
PTP-SL
and were inactivated normally by this PTP. Our results demonstrate that mutations at distinct regions of the docking groove of
ERK2
and p38alpha differentially affect their association and regulation by the
PTP-SL
and STEP PTPs.
...
PMID:Two clusters of residues at the docking groove of mitogen-activated protein kinases differentially mediate their functional interaction with the tyrosine phosphatases PTP-SL and STEP. 1171 38
The duration and the magnitude of
mitogen-activated protein kinase
(
MAPK
) activation specifies signal identity and thus allows the regulation of diverse cellular functions by the same kinase cascade. A tight and finely tuned regulation of
MAPK
activity is therefore critical for the definition of a specific cellular response. We investigated the role of tyrosine-specific phosphatases (PTPs) in the regulation of ERK5. Although unique in its structure, ERK5 is activated in analogy to other MAPKs by dual phosphorylation of threonine and tyrosine residues in its activation motif. In this study we concentrated on whether and how
PTP-SL
, a kinase-interacting motif-containing PTP, might be involved in the down-regulation of the ERK5 signal. We found that both proteins interact directly with each other in vitro and in intact cells, resulting in mutual modulation of their enzymatic activities.
PTP-SL
is a substrate of ERK5 and independent of phosphorylation binding to the kinase enhances its catalytic phosphatase activity. On the other hand, interaction with
PTP-SL
not only down-regulates endogenous ERK5 activity but also effectively impedes the translocation of ERK5 to the nucleus. These findings indicate a direct regulatory influence of
PTP-SL
on the ERK5 pathway and corresponding downstream responses of the cell.
...
PMID:Phosphotyrosine-specific phosphatase PTP-SL regulates the ERK5 signaling pathway. 1204 4
The protein tyrosine phosphatases (PTPs)
PTP-SL
, STEP and HePTP are
mitogen-activated protein kinase
(
MAPK
) substrates and regulators that bind to MAPKs through a kinase-interaction motif (KIM) located in their non-catalytic regulatory domains. We have found that the binding of these PTPs to the MAPKs extracellular-signal-regulated kinase 1 and 2 (
ERK1
/2), and p38alpha is differentially determined by the KIM-adjacent C-terminal regions of the PTPs, which have been termed kinase-specificity sequences, and is influenced by reducing agents. Under control conditions,
PTP-SL
bound preferentially to
ERK1
/2, whereas STEP and HePTP bound preferentially to p38alpha. Under reducing conditions, the association of p38alpha with STEP or HePTP was impaired, whereas the association with
PTP-SL
was unaffected. On the other hand, the association of
ERK1
/2 with HePTP was increased under reducing conditions, whereas the association with STEP or
PTP-SL
was unaffected. In intact cells,
PTP-SL
and STEP distinctively regulated the kinase activity and the nuclear translocation of
ERK1
/2 and p38alpha. Our results suggest that intracellular redox conditions could modulate the activity and subcellular location of
ERK1
/2 and p38alpha by controlling their association with their regulatory PTPs.
...
PMID:Differential interaction of the tyrosine phosphatases PTP-SL, STEP and HePTP with the mitogen-activated protein kinases ERK1/2 and p38alpha is determined by a kinase specificity sequence and influenced by reducing agents. 1258 13
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