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Query: EC:2.7.10.1 (
ERK
)
95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Rho subfamily of GTPases is involved in control of cell morphology in mammals and yeast. The mammalian Rac and Cdc42 proteins control formation of lamellipodia and filopodia, respectively. These proteins also activate
MAP kinase
(
MAPK
) cascades that regulate gene expression. Constitutively activated forms of Rac and Cdc42Hs are efficient activators of a cascade leading to
JNK
and p38/Mpk2 activation. RhoA did not exhibit this activity, and none of the proteins activated the
ERK
subgroup of MAPKs.
JNK
, but not
ERK
, activation was also observed in response to Dbl, an oncoprotein that acts as a nucleotide exchange factor for Cdc42Hs. Results with dominant interfering alleles place Rac1 as an intermediate between Ha-Ras and MEKK in the signaling cascade leading from growth factor receptors and v-Src to
JNK
activation.
JNK
and p38 activation are likely to contribute to the biological effects of Rac, Cdc42Hs, and Dbl on cell growth and proliferation.
...
PMID:Selective activation of the JNK signaling cascade and c-Jun transcriptional activity by the small GTPases Rac and Cdc42Hs. 760 May 82
The c-fos serum response element (SRE) forms a ternary complex with the transcription factors SRF (serum response factor) and TCF (ternary complex factor). By itself, SRF can mediate transcriptional activation induced by serum, lysophosphatidic acid, or intracellular activation of heterotrimeric G proteins. Activated forms of the Rho family GTPases RhoA, Rac1, and CDC42Hs also activate transcription via SRF and act synergistically at the SRE with signals that activate TCF. Functional Rho is required for signaling to SRF by several stimuli, but not by activated CDC42Hs or Rac1. Activation of the SRF-linked signaling pathway does not correlate with activation of the MAP kinases
ERK
,
SAPK
/
JNK
, or MPK2/p38. Functional Rho is required for regulated activity of the c-fos promoter. These results establish SRF as a nuclear target of a novel Rho-mediated signaling pathway.
...
PMID:The Rho family GTPases RhoA, Rac1, and CDC42Hs regulate transcriptional activation by SRF. 2478 41
Oocyte meiotic maturation is triggered by different stimuli (hormones, unknown signals through cell interactions) in different species. These stimuli indirectly lead to the activation of a major cell cycle regulating activity, the maturation promoting factor (MPF). Other factors, such as the product of the proto-oncogene c-mos or enzymes of the
MAP kinase
family, are also involved in the process of maturation.
MAP kinase
activation occurs during meiotic maturation in oocytes from different species with different kinetics. The relationships between MPF activation and
MAP kinase
activation have been well studied in species such as clam and Xenopus. In this paper, we study the precise timing of
MAP kinase
activation (as measured by phosphorylation of exogenous myelin basic protein and shifts in mobility of
ERK
1 and
ERK
2) versus MPF activation (as measured by phosphorylation of exogenous histone H1) during mouse oocyte maturation and, in parallel, morphological events such as changes in microtubule organization and chromatin condensation. We observed that
MAP kinase
activation was delayed after MPF activation and that this activity persisted throughout maturation whereas MPF activity dropped between the two meiotic metaphases. After parthenogenetic activation of ovulated eggs,
MAP kinase
inactivation was very slow compared to MPF inactivation. During the first mitotic cell cycle, a rise in
myelin basic protein kinase
activity at M-phase was observed but it was not related to
MAP kinase
activation. Furthermore, microtubules and chromatin remained in a metaphase-like state during the complete period of maturation (including the period between the two meiotic metaphases) and a few hours after activation.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Microtubule and chromatin behavior follow MAP kinase activity but not MPF activity during meiosis in mouse oocytes. 760 Sep 50
The transmission of extracellular signals into their intracellular targets is mediated by a network of interacting proteins that regulate a large number of cellular processes. Cumulative efforts from many laboratories over the past decade have allowed the elucidation of one such signaling mechanism, which involves activations of several membranal signaling molecules followed by a sequential stimulation of several cytoplasmic protein kinases collectively known as
mitogen-activated protein kinase
(
MAPK
) signaling cascade. Up to six tiers in this cascade contribute to the amplification and specificity of the transmitted signals that eventually activate several regulatory molecules in the cytoplasm and in the nucleus to initiate cellular processes such as proliferation, differentiation, and development. Moreover, because many oncogenes have been shown to encode proteins that transmit mitogenic signals upstream of this cascade, the
MAPK
pathway provides a simple unifying explanation for the mechanism of action of most, if not all, nonnuclear oncogenes. The pattern of
MAPK
cascade is not restricted to growth factor signaling and it is now known that signaling pathways initiated by phorbol esters, ionophors, heat shock, and ligands for seven transmembrane receptors use distinct
MAPK
cascades with little or no cross-reactivity between them. In this review we emphasize primarily the first
MAPK
cascade to be discovered that uses the MEK and
ERK
isoforms and describe their involvement in different cellular processes.
...
PMID:The MAPK signaling cascade. 760 37
Adhesion to extracellular matrix mediates cell cycle progression in mid-late G1; this effect involves an integrin-dependent organization of the cytoskeleton and a consequent change in cell shape. In an effort to identify potential signal-transducing agents that are associated with integrin-dependent shape changes, we looked for kinase activities that were stimulated by long-term adhesion of G0-synchronized NIH-3T3 cells to fibronectin-coated dishes. Several kinase activities were stimulated by this procedure, two of which migrated at 42 and 44 kDa and phosphorylated myelin basic protein in vitro. Blotting with anti-phosphotyrosine and anti-mitogen-activated protein (MAP) kinase antibodies identified these enzymes as
ERK
1 and
ERK
2. In contrast to the rapid and transient activation of these MAP kinases by platelet-derived growth factor, stimulation of
MAP kinase
activity by fibronectin was gradual, persistent, and associated with cell spreading rather than cell attachment itself. Cytochalasin D blocked the activation of
MAP kinase
activity that was induced by the binding of cells to fibronectin. Moreover,
MAP kinase
was also activated by adhesion of cells to vitronectin and type IV collagen; these effects were also associated with cell spreading. These results distinguish the regulation of G1 phase
MAP kinase
activity by soluble mitogens and extracellular matrix. They also implicate
MAP kinase
in shape-dependent cell cycle progression.
...
PMID:Integrin-dependent activation of MAP kinase: a link to shape-dependent cell proliferation. 761 63
A ternary complex comprised of SRF, ternary complex factor (TCF) and the c-fos SRE is the target of several extracellular signal regulated pathways. Phosphorylation of the TCF
Elk
-1 is a key event in the activation of this complex. We demonstrate that
ERK2
/p42 phosphorylation of
Elk
-1 stimulates its recruitment into ternary complexes with SRF. Moreover, phosphorylation of
Elk
-1 also stimulates its autonomous SRF-independent binding to high affinity binding sites. Thus part of the effect of
ERK2
/p42 phosphorylation is to stimulate DNA-binding by the ETS DNA-binding domain of
Elk
-1.
...
PMID:ERK2/p42 MAP kinase stimulates both autonomous and SRF-dependent DNA binding by Elk-1. 761 93
The ternary complex factor (TCF) subfamily of ETS-domain transcription factors bind with serum response factor (SRF) to the serum response element (SRE) and mediate increased gene expression. The TCF protein
Elk
-1 is phosphorylated by the
JNK
and
ERK
groups of mitogen-activated protein (MAP) kinases causing increased DNA binding, ternary complex formation, and transcriptional activation. Activated SRE-dependent gene expression is induced by
JNK
in cells treated with interleukin-1 and by
ERK
after treatment with phorbol ester. The
Elk
-1 transcription factor therefore integrates
MAP kinase
signaling pathways in vivo to coordinate biological responses to different extracellular stimuli.
...
PMID:Integration of MAP kinase signal transduction pathways at the serum response element. 761 6
The molecular mechanism underlying the cAMP inhibition of nuclear activation events in T lymphocytes is unknown. Recently, the activation of fibroblasts and muscle cells are shown to be antagonized by cAMP through the inhibition of mitogen-activated protein (MAP) kinases signaling pathway. Whether a similar antagonism may account for the late inhibitory effect of cAMP in T cell was examined. Surprisingly, extracellular signal regulated kinase 2 (
ERK1
,
ERK2
, and ERK3) of
MAP kinase
were poorly inhibited by cAMP. High concentration of cAMP also only weakly antagonized Raf-1 in T cells. The resistance of
ERK
and Raf-1 to cAMP clearly distinguishes T cells from fibroblasts. In contrast, another
MAP kinase
homologue
c-Jun N-terminal kinase
(JNK) was inhibited by cAMP in good correlation with that of IL-2 suppression. Moreover, JNK was antagonized by a delayed kinetics which is characteristic of cAMP inhibition. Despite that both
ERK
and JNK are essential for T cell activation, selective inhibition by cAMP further supports the specific role of JNK in T cell activation.
...
PMID:c-Jun N-terminal kinase but not mitogen-activated protein kinase is sensitive to cAMP inhibition in T lymphocytes. 762 20
Transcriptional induction of the c-fos proto-oncogene in response to serum growth factors is mediated in part by a ternary complex that forms on the serum response element (SRE) within its promoter. This complex consists of
Elk
-1, serum response factor (SRF) and the SRE.
Elk
-1 is phosphorylated by
MAP kinase
, which correlates with the induction of c-fos transcription. In this study we have investigated the protein-induced DNA bending which occurs during the formation and post-translational modification of the ternary complex that forms at the c-fos SRE. Circular permutation analysis demonstrates that the minimal DNA-binding domain of SRF, which contains the MADS box, is sufficient to induce flexibility into the centre of its binding site within the SRE. Phasing analysis indicates that at least part of this flexibility results in the production of a directional bend towards the minor groove. The isolated ETS domains from
Elk
-1 and SAP-1 induce neither DNA bending nor increased DNA flexibility. Formation of ternary complexes by binding of
Elk
-1 to the binary SRF:SRE complex results in a change in the flexibility of the SRE. Phosphorylation of
Elk
-1 by
MAP kinase
(p42/
ERK2
) induces further minor changes in this DNA flexibility. However, phasing analysis reveals that the recruitment of
Elk
-1 to form the ternary complex affects the SRF-induced directional DNA bend in the SRE. The potential roles of DNA bending at the c-fos SRE are discussed.
...
PMID:DNA bending in the ternary nucleoprotein complex at the c-fos promoter. 763 Jul 21
A single point mutation, Glu627--> Val, equivalent to the activating mutation in the
Neu
oncogene, was inserted in the transmembrane domain of the human epidermal growth factor (EGF) receptor. Unlike the wild type, Glu627-EGF receptor, transfected in NIH3T3 cells, gave rise to focal transformation and growth in agar even in the absence EGF. Constitutive activity of mutant EGF receptor amounted to 20% of that of wild type receptor stimulated by EGF. In addition, the mutant receptor was more sensitive to EGF, reaching maximum transforming activity at 5 ng/ml EGF. NIH3T3 cells expressing Glu627-EGF receptor showed a transformed phenotype and were not arrested in G0 upon serum deprivation. The mutant receptor was constitutively autophosphorylated, and several other cellular proteins were phosphorylated on tyrosine in absence of the ligand. Among these, the SHC adaptor protein was phosphorylated in absence of EGF, the other adaptor, GRB-2 was constitutively associated with the Glu627-EGF receptor in vivo and in vitro, and
mitogen-activated protein kinase
was constitutively phosphorylated. In contrast, other EGF receptor substrates, like phospholipase C gamma, were not phosphorylated in absence of EGF. The mutant receptor showed a higher sensitivity to cleavage by calpain both in absence and presence of EGF, appeared as a 170- and 150-kDa doublet in cell extracts, and a specific calpain inhibitor blocked the appearance of the 150-kDa form. Since the calpain cleavage site is located in the receptor cytoplasmic tail, this finding suggests that the Glu627 mutation induces a slightly different conformation in the EGF receptor intracellular domain. In conclusion, our data show that a point mutation in the EGF receptor transmembrane domain was able to constitutively activate the receptor and to induce transformation via constitutive activation of the Ras pathway.
...
PMID:SHC and GRB-2 are constitutively by an epidermal growth factor receptor with a point mutation in the transmembrane domain. 764 41
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