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Query: UNIPROT:P51812 (
mitogen-activated protein
)
10,636
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Insulin-like growth factor-I (IGF-I) and
insulin
are known to activate a signaling cascade involving ras --> kappa raf-1 -->
mitogen-activated protein
(
MAP
) kinase kinase (MEK) --> p42/p44 MAP kinase (Erk-1 and -2). Recent reports suggest that activation of this ras/MAP kinase pathway is involved in mitogenesis and c-fos transcription but is not required for
insulin
action on metabolic processes such as glycogen synthesis, lipogenesis, and GLUT-4-mediated glucose transport. Previously we and others have demonstrated that substitution of both tyrosines at positions 1250 and 1251 in the carboxy-terminal region of the human IGF-I receptor has relatively small effects on receptor and endogenous substrate phosphorylation but completely abrogated the ability of these cells to form tumors in nude mice or proliferate in response to IGF-I in culture. Replacement of the tyrosine at position 1316 also did not affect the kinase activity of the receptor with respect to autophosphorylation or phosphorylation of endogenous substrates but did reduce the ability of the receptor to mediate mitogenic or tumorigenic signals. To further characterize the role of these tyrosines in IGF-I receptor function, we have used three distinct approaches to examine the ras/MAP kinase pathway in IGF-I-induced mitogenesis and tumorigenesis in NIH-3T3 cells overexpressing wild-type and mutated IGF-I receptors: 1) tyrosine phosphorylation of the
MAP
kinases Erk-1 and -2; 2), mobility shifts indicative of MAP kinase phosphorylation; and 3) in vitro MAP kinase activation. We have also examined IGF-I-induced phosphatidylinositol (PI) 3-kinase activation in the same cell lines. By each method we show that the IGF-I-induced MAP kinase phosphorylation/activation and PI 3-kinase activation, are not different between cells overexpressing wild-type IGF-I receptors and cells carrying IGF-I receptors having tyrosine motifs replaced at positions 1250 and 1251. We conclude that mitogenic and tumorigenic signals involving tyrosine residues in the C-terminal domain of the IGF-I-receptor include pathways other than the MAP kinase and PI 3-kinase pathways.
...
PMID:Mitogen-activated protein kinase and phosphatidylinositol 3-kinase pathways are not sufficient for insulin-like growth factor I-induced mitogenesis and tumorigenesis. 916 48
After insulin receptor activation, many cytoplasmic enzymes, including
mitogen-activated protein
(
MAP
) kinase, MAP kinase kinase (MEK) and casein kinase II (CKII) are activated, but exactly how
insulin
signalling progresses to the nucleus remains poorly understood. In Chinese hamster ovary cells overexpressing human
insulin
receptors [CHO(Hirc)], MEK, CKII and the
MAP
kinases ERK I and ERK II can be detected by immunoblotting in the nucleus, as well as in the cytoplasm, in the unstimulated state. Nuclear localization of MAP kinase is also observed in 3T3-F442A adipocytes, NIH-3T3 cells and Fao hepatoma cells, whereas MEK is found in the nucleus only in Fao and CHO cells.
Insulin
treatment for 5-30 min induces a translocation of MEK from the cytoplasm to the nucleus, whereas the
MAP
kinases and CKII are not translocated into the nucleus in response to
insulin
during this period. However, nuclear MAP kinase and CKII activities increase by 2-3-fold within 1-10 min after stimulation with
insulin
. By using gel-shift assays, it has been shown that
insulin
also stimulates nuclear protein binding to an AP-1 site with kinetics similar to MEK translocation and MAP kinase and CKII activation. Treatment of the extracts in vitro with protein phosphatase 2A or treatment of the intact cells with 5, 6-dichloro-1-beta-d-ribofuranosylbenzimidazole, a cell-permeable inhibitor of CKII, almost completely blocks the
insulin
-induced DNA-binding activity, whereas incubation of cells with a MEK inhibitor produces only a slight decrease. These results suggest that
insulin
signalling results in the activation of serine kinases in the nucleus via two pathways: (1)
insulin
stimulates the nuclear translocation of some kinases, such as MEK, which might directly phosphorylate nuclear protein substrates or activate other nuclear kinases, and (2)
insulin
activates nuclear kinases without translocation. The latter is true of CKII, which seems to regulate the binding of nuclear proteins to the AP-1 site, possibly by phosphorylation of AP-1 transcription factors.
...
PMID:Insulin regulation of mitogen-activated protein kinase kinase (MEK), mitogen-activated protein kinase and casein kinase in the cell nucleus: a possible role in the regulation of gene expression. 916 93
We have investigated the role of
mitogen-activated protein
(
MAP
) kinase in the survival of cerebellar granule cells in primary culture. Brain-derived neurotrophic factor (BDNF) and
insulin
, but not epidermal growth factor (EGF), promoted the survival of P6 cerebellar granule neurons. BDNF promoted a sustained activation of MAP kinase, whereas that induced by EGF was only transient.
Insulin
promoted a small but transient activation of MAP kinase that was completely blocked by PD98059, an inhibitor of MAP kinase kinase activation. PD98059 had no effect on the
insulin
- or BDNF-induced survival of cerebellar granule cells. We also investigated the role of p70S6 kinase in survival. The activation of p70S6 kinase by EGF was transient, whereas BDNF and
insulin
promoted a sustained activation of p70S6 kinase. Rapamycin, which blocked p70S6 kinase activation, had no effect on the BDNF- or
insulin
-induced survival of cerebellar granule cells. We conclude that sustained activation of MAP kinase is not correlated with the survival response of cerebellar granule cells; indeed
insulin
-mediated survival is independent of MAP kinase. Survival of cerebellar granule cells is also independent of the activation of p70S6 kinase.
...
PMID:Activation of mitogen-activated protein kinase and p70S6 kinase is not correlated with cerebellar granule cell survival. 918 92
The purpose of the studies included in this chapter was to examine the role of the actin network in the propagation of
insulin
action leading to stimulation of glucose transport and activation of the mitogen-activated protein kinase cascade. The active insulin receptor phosphorylates tyrosine residues of intracellular proteins such as the insulin receptor substrate-1 (IRS-1) which acts as docking sites for molecules containing Src homology 2 (SH2) domains. One such molecule is phosphatidylinositol 3-kinase (PI 3-kinase) which becomes activated by binding to IRS-1. PI 3-kinase activity is required for the
insulin
-stimulation of glucose transport and glycogen synthesis. Grb2, a small adaptor molecule, can bind IRS-1 and, through the guanine nucleotide exchange factor Sos, leads to the activation of the small GTP binding protein Ras. Through a cascade of protein kinases, activation of Ras results in activation of the Erk 1 and 2
mitogen-activated protein
kinases (MAPKs) which appear to control important nuclear and metabolic events. To investigate the role of the actin network in the propagation of
insulin
action leading to stimulation of glucose transport and the activation of the Erk MAPKs, we used the fungal metabolite cytochalasin D which disassembles the actin network. Actin disassembly abolished almost completely the ability of
insulin
to increase the rate of glucose transport into L6 muscle cells (myotubes) through prevention of the
insulin
-induced recruitment of glucose transporters to the plasma membrane which is the event that mediates the increase in the rate of transport. Actin disassembly did not affect either the
insulin
-mediated phosphorylation of IRS-1, the association of PI 3-kinase with this molecule, or the activation of IRS-1-associated PI 3-kinase. These results were also verified in another
insulin
responsive cell line, the 3T3-L1 adipocytes. In these cells, actin disassembly inhibited the
insulin
-induced recruitment of PI 3-kinase to intracellular membranes containing glucose transporters. Moreover, actin disassembly abolished the
insulin
-mediated phosphorylation of the Erk MAPKs. We conclude that the cellular actin network of
insulin
responsive cells is not required for the activation of PI 3-kinase but prevents its cellular redistribution. In contrast, intact actin filaments are essential for the propagation of
insulin
signals leading to the the activation of the MAPKs.
...
PMID:Involvement of the actin network in insulin signalling. 921 Feb 35
We demonstrate herein the ability of transforming growth factor-beta-2 (TGFbeta2) to potently activate extracellular signal-regulated kinase 2 (ERK2) in the highly TGFbeta-sensitive breast cancer cell (BCC) line Hs578T. The ERK2 isoform was activated by 3-fold within 5 min of TGFbeta2 addition to Hs578T cells. However, TGFbeta2 only slightly activated ERK2 (1.5-fold) in the partially TGFbeta-responsive BCC line MDA-MB-23 1. The magnitude of the difference in activation of ERK2 by TGFbeta2 in the two cell lines paralleled the difference in the IC50 values for TGFbeta inhibition of DNA synthesis; the IC50 value in the MDA-MB-231 cells was 32-fold greater than that in the Hs578T cells. Further, our data demonstrate that TGFbeta2 activated the stress-activated protein kinase/Jun N-terminal kinase (SAPK/JNK) type of
mitogen-activated protein
kinases (MAPKs); maximal induction levels were 2.5-fold above basal values and were attained at 30 min after TGFbeta2 treatment. Transient co-transfection of a luciferase reporter construct (3TP-Lux) containing three AP-1 sites and the plasminogen activator inhibitor-1 (PAI-1) promoter, in conjunction with a construct that directs expression of a dominant-negative mutant ERK2 (TAYF) protein, did not block the ability of TGFbeta to induce AP-1 or PAI-1 activity. In contrast, TAYF ERK2 was able to block EGF and
insulin
-induced 3TP-Lux-reporter activity. These results indicate that in these BCCs, the activation of ERK2 by TGFbeta is more tightly linked to the ability of TGFbeta to inhibit DNA synthesis than to the ability to stimulate promoter regions important for TGFbeta production and control of the extracellular matrix. In addition, this is the first demonstration that TGFbeta can activate the SAPK/JNK type of MAPK in TGFbeta-sensitive human BCCs.
...
PMID:TGFbeta regulation of mitogen-activated protein kinases in human breast cancer cells. 923 30
p38 is a member of the
mitogen-activated protein
(
MAP
) kinase superfamily activated by stress signals and implicated in cellular processes involving inflammation and apoptosis. Unlike the extracellular signal-regulated kinases (p42 and p44
MAP
kinases), which are stimulated by
insulin
in many cell types, p38 activity is inhibited by
insulin
in postmitotic fetal neurons for which
insulin
is a potent survival factor (Heidenreich, K. A., and Kummer, J. L. (1996) J. Biol. Chem. 271, 9891-9894). These data suggested that
insulin
's effects on neuronal survival are mediated by inhibition of a p38-mediated apoptotic pathway. To better understand the relationship between p38 activity and cell survival, we induced apoptosis in two cell lines and examined the ability of
insulin
or a specific p38 inhibitor (a pyridinyl imidazole compound PD169316) to block p38 activity and cell death. In Rat-1 fibroblasts grown in the presence of serum, p38 activity was undetectable by immune complex assays, and the number of apoptotic cells was very low (<0.5%). After the removal of serum for 16 h, p38 activity was markedly elevated, and apoptosis increased by 14-15-fold.
Insulin
(50 ng/ml) inhibited p38 activity by approximately 70% and blocked apoptosis by at least 80%. PD169316 also blocked p38 enzyme activity and apoptosis by approximately 80%. Similar results were obtained in differentiated PC12 cells that were deprived of nerve growth factor (NGF) for 16 h. In the presence of NGF, p38 activity and the number of apoptotic cells was very low (approximately 1.0%). After NGF withdrawal, p38 activity was selectively elevated and apoptosis increased to 15%. Both
insulin
and PD169316 markedly blocked the increase in p38 activity and apoptosis. The MAP kinase kinase inhibitor, PD98059, had no effect on apoptosis in Rat-1 fibroblasts and only partially blocked apoptosis in PC12 cells. PD98059 did not influence
insulin
's ability to block apoptosis, indicating that the extracellular signal-regulated kinase pathway does not mediate
insulin
's survival effects. These data further support the role of p38 in cellular apoptosis and support the hypothesis that
insulin
promotes cell survival, at least in part, by inhibiting the p38 pathway.
...
PMID:Apoptosis induced by withdrawal of trophic factors is mediated by p38 mitogen-activated protein kinase. 925 60
Insulin
signaling involves the transient activation/inactivation of various proteins by a cycle of phosphorylation/dephosphorylation. This dynamic process is regulated by the action of protein kinases and protein phosphatases. One family of protein kinases that is important in
insulin
signaling is the
mitogen-activated protein
(
MAP
) kinases, whose action is reversed by specific MAP kinase phosphatases (MKPs).
Insulin
stimulation of Hirc B cells overexpressing the human insulin receptor resulted in increased MKP-1 mRNA levels. MKP-1 mRNA increased in a dose-dependent manner to a maximum of 3- to 4-fold over basal levels within 30 min, followed by a gradual return to basal. The mRNA induction did not require the continuous presence of
insulin
. The induction of MKP-1 protein synthesis followed MKP-1 mRNA induction; MKP-1 protein was maximally expressed after 120 min of
insulin
stimulation. MKP-1 mRNA induction by
insulin
required insulin receptor tyrosine kinase activity, since overexpression of an altered insulin receptor with impaired intrinsic tyrosine kinase activity prevented mRNA induction. Forskolin, (Bu)2-cAMP, 8-bromo-cAMP, and 8-(4-chlorophenylthio)-cAMP increased the MKP-1 mRNA content moderately above basal. These agents also augmented the
insulin
-stimulated expression of MKP-1 mRNA. However, in some cases the increase in MKP-1 mRNA expression was less than additive. Nevertheless, these results indicate that multiple signaling motifs might regulate MKP-1 expression and suggest another mechanism for the attenuation of
insulin
-stimulated MAP kinase activity by cAMP. Overexpression of MKP-1 in Hirc B cells inhibited both
insulin
-stimulated MAP kinase activity and MAP kinase-dependent gene transcription. The results of these studies led us to conclude that
insulin
regulates MKP-1 and strongly suggest that MKP-1 acts as a negative regulator of
insulin
signaling.
...
PMID:Insulin-induced mitogen-activated protein (MAP) kinase phosphatase-1 (MKP-1) attenuates insulin-stimulated MAP kinase activity: a mechanism for the feedback inhibition of insulin signaling. 928 68
We recently reported that
insulin
stimulation results in the serine phosphorylation of STAT3 (signal transducer and activator of transcription-3). In the present study, we identified serine 727 as the site of
insulin
-stimulated STAT3 serine phosphorylation. This phosphorylation event occurs independent of tyrosine phosphorylation. Furthermore, interleukin-6-induced tyrosine phosphorylation can occur independent of serine phosphorylation, demonstrating that these two phosphorylation pathways are mechanistically unrelated. Selective activation of the JNK and p38 family of
mitogen-activated protein
(
MAP
) kinases by anisomycin treatment did not result in the phosphorylation of STAT3. In contrast, activation of the ERK MAP kinase pathway with both
insulin
and osmotic shock resulted in the serine phosphorylation of STAT3. In addition, expression of a dominant-interfering Ras mutant (N17Ras) or treatment with the specific MEK inhibitor (PD98059) prevented the
insulin
stimulation of STAT3 serine phosphorylation. Blockade of ERK activation by expression of the MAP kinase phosphatase (MKP-1) had no effect on
insulin
-stimulated STAT3 serine phosphorylation. Together, these data demonstrate that the
insulin
-stimulated serine phosphorylation of STAT3 occurs by a MEK-dependent pathway that is independent of ERK activation.
...
PMID:Signal transducer and activator of transcription-3 serine phosphorylation by insulin is mediated by a Ras/Raf/MEK-dependent pathway. 932 21
The role played by
mitogen-activated protein
kinases (MAPKs) in the regulation of
insulin
secretion from adult rat islets of Langerhans was investigated by examining the effects of glucose, forskolin and 4beta phorbol myristate acetate (PMA) on islet MAPK activity and by measuring
insulin
secretion from islets in response to these agonists after inhibition of MAPK by PD 098059 (PD). Glucose (20mM) had a small (<2-fold) stimulatory effect on MAPK activity in isolated islets, and this was potentiated by forskolin (10 microM) and PMA (500nM), which also significantly stimulated MAPK activity at 2mM glucose. Pretreatment of islets with 50 microM PD inhibited MAPK activity, but had no effect on secretory responses to glucose, forskolin and PMA. These results suggest that although MAPK may be activated by
insulin
secretagogues in adult rodent islets, this can be dissociated from the exocytotic release of
insulin
.
...
PMID:Glucose-stimulated insulin secretion from rat islets of Langerhans is independent of mitogen-activated protein kinase activation. 934 49
In this work, we determined the effects of sphingosine 1-phosphate (S1P) on phospholipase D (PLD)-mediated hydrolysis of phosphatidylethanolamine (PtdEtn), and evaluated the effects of the water-soluble product ethanolamine on S1P-induced DNA synthesis in NIH 3T3 cells. In [14C]ethanolamine-labelled cells, S1P (0.5-5 microM) stimulated PLD-mediated hydrolysis of PtdEtn 1.5-2.1-fold. Down-regulation of protein kinase C by chronic (24 h) treatment of cells with 300 nM PMA, or pretreatments (10 min) with the cell-permeant calcium chelator 1,2-bis-(O-aminophenoxy)-ethane-N,N, N',N'-tetra-acetic acid tetra-acetoxymethyl ester led to the inhibition of S1P-induced PtdEtn hydrolysis. S1P alone was a weak inducer of DNA synthesis, but its effects were enhanced by phosphocholine (PCho),
insulin
, ATP or PMA. Ethanolamine (5-100 microM) did not modify the mitogenic effect of S1P alone, whereas at 50-100 microM concentrations it actually enhanced the mitogenic effect of PCho via a
mitogen-activated protein
(
MAP
) kinase-independent mechanism. In contrast, 5-20 microM concentrations of ethanolamine, which correspond to normal blood ethanolamine levels in humans, strongly inhibited DNA synthesis induced by S1P plus PCho via a MAP kinase-dependent mechanism; importantly, less or no inhibition was observed with 50-100 microM concentrations of ethanolamine. At 5-50 microM concentrations, ethanolamine also inhibited the synergistic mitogenic effects of both S1P plus
insulin
(22-27% inhibition) and PCho plus ATP (45-73% inhibition) but not those of S1P plus PMA or S1P plus ATP. The results indicate that S1P stimulates PLD-mediated hydrolysis of PtdEtn by a mechanism that may involve a regulatory protein kinase C isoform. Increased formation of ethanolamine by PLD-mediated PtdEtn hydrolysis or by other means may be required for maximal stimulation of DNA synthesis by S1P in the presence of
insulin
, and particularly PCho.
...
PMID:Extracellular sphingosine 1-phosphate stimulates formation of ethanolamine from phosphatidylethanolamine: modulation of sphingosine 1-phosphate-induced mitogenesis by ethanolamine. 937 92
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