EC:2.7.12.2 - FACTA Search

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Query: EC:2.7.12.2 (MEK)
18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although signaling by the epidermal growth factor (EGF) receptor is thought to be dependent on receptor tyrosine kinase activity, it is clear that mitogen-activated protein (MAP) kinase can be activated by receptors lacking kinase activity. Since analysis of the signaling pathways used by kinase-defective receptors could reveal otherwise masked capabilities, we examined in detail the tyrosine phosphorylations and enzymes of the MAP kinase pathway induced by kinase-defective EGF receptors. Following EGF stimulation of B82L cells expressing a kinase-defective EGF receptor mutant (K721M), we found that ERK2 and ERK1 MAP kinases, as well as MEK1 and MEK2 were all activated, and SHC became prominently tyrosine-phosphorylated. By contrast, kinase-defective receptors failed to induce detectable phosphorylations of GAP (GTPase-activating protein), p62, JAK1, or p91STAT1, all of which were robustly phosphorylated by wild-type receptors. These data demonstrate that kinase-defective receptors induce several protein tyrosine phosphorylations, but that these represent only a subset of those seen with wild-type receptors. This suggests that kinase-defective receptors activate a heterologous tyrosine kinase with a specificity different from the EGF receptor. We found that kinase-defective receptors induced ErbB2/c-Neu enzymatic activation and ErbB2/c-Neu binding to SHC at a level even greater than that induced by wild-type receptors. Thus, heterodimerization with and activation of endogenous ErbB2/c-Neu is a possible mechanism by which kinase-defective receptors stimulate the MAP kinase pathway.
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PMID:An incomplete program of cellular tyrosine phosphorylations induced by kinase-defective epidermal growth factor receptors. 753 32

We have isolated from KB cells stimulated with interleukin-1 (IL-1) a protein kinase that phosphorylates a peptide (T669) based on the sequence around T669 of the epidermal growth factor (EGF) receptor. The enzyme, which had an apparent molecular mass of 45 kDa on gel-filtration chromatography, was purified 170,000-fold from cytosolic extracts by sequential chromatography on Mono Q, Mono S, phenyl-Sepharose, Superose 12, ATP-Sepharose and Mono Q. The enzyme activity co-chromatographed at the last step with a 45 kDa protein band that stained for phosphotyrosine. This peak fraction also contained some actin and a 60 kDa protein that stained weakly for phosphotyrosine. The T669 peptide is a substrate for mitogen-activated protein (MAP) kinase. Amounts of IL-1-induced T669 kinase and activated recombinant p42 MAP kinase having equal activity on T669 peptide were compared on commonly used MAP kinase substrates. T669 kinase was two or three orders of magnitude less active on myelin basic protein or microtubule-associated protein-2 than was MAP kinase. The IL-1-induced T669 kinase did not react with antiserum to p42/p44 MAP kinase. It was inactivated by treatment with protein phosphatase 2A or protein phosphotyrosine phosphatase 1B, so it may be regulated by dual phosphorylation in similar fashion to MAP kinase. The dephosphorylated enzyme was not re-activated by MAP kinase kinase. This novel enzyme could lie on a kinase cascade induced by IL-1. It may be responsible for phosphorylating T669 of the EGF receptor.
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PMID:Interleukin-1 activates a novel protein kinase that phosphorylates the epidermal-growth-factor receptor peptide T669. 794 18

Insulin stimulates the Ras/Raf/MEK/ERK pathway leading to feedback phosphorylation of the Ras guanylnucleotide exchange protein SOS and dissociation of Grb2 from SOS. Even though epidermal growth factor (EGF) also stimulates ERK activity and phosphorylation of SOS similar to insulin, EGF induces a dissociation of the Grb2-SOS complex from Shc. To determine the molecular basis for this difference, we examined the signaling properties of a mutant EGF receptor lacking the five major autophosphorylation sites. Although EGF stimulation of the mutant EGF receptor activates ERK and phosphorylation of both Shc and SOS, it fails to directly associate with either Shc or Grb2. However, under these conditions EGF induces a dissociation of the Grb2-SOS complex suggesting a role for receptor and/or plasma membrane targeting in the stabilization of Grb2-SOS interaction. Consistent with this hypothesis, expression of an SH2 domain Grb2 mutant which is unable to mediate plasma membrane targeting of the Grb2-SOS complex results in both insulin- and EGF-stimulated uncoupling of Grb2 from SOS. Furthermore, a plasma membrane-bound Grb2 fusion protein remains constitutively associated with SOS. Together, these data demonstrate that EGF stimulation prevents the feedback uncoupling of Grb2 from SOS by inducing a persistent plasma membrane receptor targeting of the Grb2-SOS complex.
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PMID:Epidermal growth factor receptor targeting prevents uncoupling of the Grb2-SOS complex. 862 25

Cripto-1 (CR-1), a recently discovered protein of the epidermal growth factor (EGF) family, was found to interact with a high affinity, saturable binding site(s) on HC-11 mouse mammary epithelial cells and on several different human breast cancer cell lines. This receptor exhibits specificity for CR-1, since other EGF-related peptides including EGF, transforming growth factor alpha, heparin-binding EGF-like growth factor, amphiregulin, epiregulin, betacellulin, or heregulin beta1 that bind to either the EGF receptor or to other type 1 receptor tyrosine kinases such as erb B-3 or erb B-4 fail to compete for binding. Conversely, CR-1 was found not to directly bind to or to activate the tyrosine kinases associated with the EGFR, erb B-2, erb B-3, or erb B-4 either alone or in various pairwise combinations which have been ectopically expressed in Ba/F3 mouse pro-B lymphocyte cells. However, exogenous CR-1 could induce an increase in the tyrosine phosphorylation of 185- and 120-kDa proteins and a rapid (within 3-5 min) increase in the tyrosine phosphorylation of the SH2-containing adaptor proteins p66, p52, and p46 Shc in mouse mammary HC-11 epithelial cells and in human MDA-MB-453 and SKBr-3 breast cancer cells. CR-1 was also found to promote an increase in the association of the adaptor Grb2-guanine nucleotide exchange factor-mouse son of sevenless (mSOS) signaling complex with tyrosine-phosphorylated Shc in HC-11 cells. Finally, CR-1 was able to increase p42(erk-2) mitogen-activated protein kinase (MAPK) activity in HC-11 cells within 5-10 min of treatment. These data demonstrate that CR-1 can function through a receptor which activates intracellular components in the ras/raf/MEK/MAPK pathway.
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PMID:Cripto enhances the tyrosine phosphorylation of Shc and activates mitogen-activated protein kinase (MAPK) in mammary epithelial cells. 901 73

SHP-1 (also known as PTP1C, SHPTP-1, SHP, and HCP) is an SH2 domain-containing protein-tyrosine phosphatase. We have stably overexpressed the native form and a catalytically inactive cysteine to serine mutant of the enzyme, SHP-1-(Cys --> Ser), in human cervical carcinoma HeLa cells. Following stimulation of the cells with epidermal growth factor (EGF) and interferon-gamma (INF-gamma), signal transducers and activators of transcription (STAT) activity was analyzed by using two 32P-labeled DNA probes, namely hSIE which is derived from a high affinity mutant form of the serum-inducible element in the c-fos promotor and GAS which resembles the INF-gamma activation site. EGF induced hSIE binding activity only, and the activity was suppressed by approximately 70% when the inactive mutant form of SHP-1 was expressed but was essentially unaffected by expression of the native enzyme. INF-gamma treatment resulted in appearance of both hSIE and GAS binding activities. While expression of the inactive mutant reduced the activities by 30-50%, the native enzyme caused a 20-30% increase. Consistent with effects on STAT activation, altered SHP-1 expression also affected EGF-induced activation of the mitogen-activated protein kinase pathway; expression of SHP-1-(Cys --> Ser) inhibited activity of MEK by approximately 25%, whereas expression of SHP-1 resulted in a approximately 25% increase. Further studies revealed that overexpression of SHP-1 caused decreased tyrosine phosphorylation of the EGF receptor and that EGF induced phosphorylation and recruitment of SHP-1. Together, the data suggest that SHP-1 is positively involved in EGF- and INF-gamma-induced STAT activation in non-hematopoietic HeLa cells and that, in the EGF signaling system, SHP-1 functions at least partly by modulating tyrosine phosphorylation of EGF receptor.
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PMID:Positive effects of SH2 domain-containing tyrosine phosphatase SHP-1 on epidermal growth factor- and interferon-gamma-stimulated activation of STAT transcription factors in HeLa cells. 928 52

c-Src, the prototype of the cytoplasmic, membrane-associated,non-receptor tyrosine kinases, is a co-transducer of mitogenic signals emanating from a number of tyrosine kinase polypeptide growth factor receptors. Examples of such receptors include those that bind the platelet-derived growth factor (PDGF), colony stimulating factor-1 (CSF-1), and epidermal growth factor (EGF). Investigations into the mechanisms by which c-Src contributes to receptor signaling suggest that interactions between the two proteins are bidirectional, i.e., that c-Src can bind, phosphorylate, and activate the receptor, and vice versa. The consequences of these interactions appear to be enhanced phosphorylation of specific substrates. Delineating which cellular proteins are substrates of which tyrosine kinase and determining the consequences of tyrosine phosphorylation on the function of specific substrates are the goals of current investigations. Utilizing the murine C3H10T fibroblast model, in which a panel of wild type and mutant c-Src/EGF receptor overexpressors has been studied for temporal and spatial second messenger responses to EGF, distinctions between substrates of c-Src and the EGF receptor and the effects of tyrosine phosphorylation on substrate function are beginning to emerge. In the 10T model, preferred substrates of c-Src are almost exclusively comprised of those molecules that associate with the actin cytoskeleton or with focal adhesions, such as cortactin, p190RhoGAP, and p130CAS, while preferred substrates of the EGF receptor include the receptor itself, SHC, phospholipase C-gamma and p62DOK. While the major mitogenic signaling pathway is thought to proceed directly from the receptor (through SHC/GRB2/SOS/Ras/Raf/MEK/MAPkinase/Elk1), more evidence is accumulating to suggest that proteins involved in regulating the actin cytoskeleton (such as c-Src substrates) also participate in mitogenesis, either as unique transducers of growth signals and/or as monitors of anti-apoptotic conditions (substratum attachment). How c-Src may contribute to the EGF mitogenic response through tyrosine phosphorylation of or association with its specific substrates is discussed. Cellular Src (c-Src), prototype for a family of intracellular membrane-associated tyrosine kinases, is required for mitogenesis initiated by multiple growth factor receptors, including the receptors for epidermal growth factor (EGF), platelet-derived growth factor (PDGF), colony stimulating factor-1 (CSF-1), and the basic fibroblast growth factor (bFGF). C-Src is also overexpressed and/or activated in many of the same human carcinomas that overexpress members of the EGF receptor (EGFR) family, suggesting that the two types of tyrosine kinases can cooperate during the genesis of human tumors. This review focuses on the role of c-Src in EGF-dependent mitogenesis and tumorigenesis, i.e., on the interactions between c-Src and the receptor and on identification of c-Src substrates, their functions, and the effects of tyrosine phosphorylations on their functions. A synopsis of other mitogenic and signaling systems is also included for comparative purposes.
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PMID:Role of c-Src tyrosine kinase in EGF-induced mitogenesis. 933 27

In addition to tyrosine phosphorylation of the 66-, 52-, and 46-kDa Shc isoforms, epidermal growth factor (EGF) treatment of Chinese hamster ovary cells expressing the human EGF receptor also resulted in the serine/threonine phosphorylation of approximately 50% of the 66-kDa Shc proteins. The serine/threonine phosphorylation occurred subsequent to tyrosine phosphorylation and was prevented by pretreatment of the cells with the MEK-specific inhibitor PD98059. Surprisingly, only the gel-shifted 66-kDa Shc isoform (serine/threonine phosphorylated) was tyrosine phosphorylated and associated with Grb2. In contrast, only the non-serine/threonine-phosphorylated fraction of 66-kDa Shc was associated with the EGF receptor. To assess the relationship between the three Shc isoforms in EGF-stimulated signaling, the cDNA encoding the 66-kDa Shc species was cloned from a 16-day-old mouse embryo library. Sequence alignment confirmed that the 66-kDa Shc cDNA resulted from alternative splicing of the primary Shc transcript generating a 110-amino acid extension at the amino terminus. Co-immunoprecipitation of Shc and Grb2 from cells overexpressing the 52/46-kDa Shc isoforms versus the 66-kDa Shc species directly demonstrated a competition of binding for a limited pool of Grb2 proteins. Furthermore, expression of the 66-kDa Shc isoform markedly accelerated the inactivation of ERK following EGF stimulation. Together, these data indicate that the serine/threonine phosphorylation of 66-kDa Shc impairs its ability to associate with the tyrosine-phosphorylated EGF receptor and can function in a dominant-interfering manner by inhibiting EGF receptor downstream signaling pathways.
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PMID:The 66-kDa Shc isoform is a negative regulator of the epidermal growth factor-stimulated mitogen-activated protein kinase pathway. 934 57

Vasoconstrictors, such as angiotensin II (Ang II), are involved in the regulatory mechanisms of post myocardial infarction (MI) hypertrophy. Arginine vasopressin (AVP), may be another vasoconstrictor that influences the mechanisms that lead to post MI hypertrophy. In these studies we investigated the possible activation of the 42/44 kDa mitogen-activated protein kinases (MAPKs), also referred as extracellular signal regulated kinases (ERKs), in cultured cardiomyocytes. Treatment of rat cardiomyocytes with AVP, Ang II and phorbol 12-myristate 13-acetate (PMA) increases the activation of ERKs. The activity of the 42/44 kDa MAPKs was tested using the phosphorylation of: (1) EGF receptor peptide (EGFR-P); (2) myelin basic protein (MBP) immobilized in poly acrylamide gels; and (3) T183 and Y185 residues of these proteins. The activity of the MAPKs, induced by AVP or PMA was inhibited by downregulation of protein kinase C (PKC), by the tyrosine kinase inhibitor genistein and by MAPK kinase (MEK) inhibitor, PD98059. In addition, the AVP-induced stimulation of MAPKs was shown to be mediated through a V1 receptor. We suggest that AVP activates the 42/44kDa MAPKs through a signal transduction pathway that involves stimulation of AVP-V1 receptor, tyrosine kinase, PKC and MEK. These results suggest that AVP may be involved in ERKs dependent regulatory functions of cardiomyocytes growth.
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PMID:Stimulation of 42/44 kDa mitogen-activated protein kinases by arginine vasopressin in rat cardiomyocytes. 945 90

Using a guinea pig gastric longitudinal smooth muscle preparation, we have compared the contractile signaling pathways triggered by the thrombin receptor-activating peptide, TFLLR-NH2 (TF) and by epidermal growth factor-urogastrone (EGF). In addition to inhibitors of tyrosine kinase [tyrphostin 47/AG213, genistein and the src-selective inhibitor CP118,556/PP1], cyclooxygenase (indomethacin, INDO) and diacylglycerol lipase (U57, 908), we also used the signal pathway probe inhibitors of mitogen-activated protein-kinase-kinase (MEK:PD98059), phosphatidylinositol 3'-kinase [PI3K: Wortmannin (WM) and LY294002], protein kinase C [PKC: GF109203X (GF)], and of the EGF-receptor kinase (PD153035). We found that in addition to the inhibition of both TF and EGF-stimulated contractions by the inhibitors of tyrosine kinase, cyclooxygenase and diacylglycerol lipase, the actions of TF and EGF were also attenuated by PD98059, WM/LY294002 and GF. However, PD153035 blocked only EGF-triggered contractions. The contractile actions of both TF and EGF were dependent on extracellular calcium. In contrast, the contractile action of arachidonic acid, via a presumed cyclooxygenase product that mediated the contractions caused by both TF and EGF, was not blocked by any of the signal pathway probe inhibitors. The contractile actions of both TF and EGF were accompanied by increases in tissue phosphotyrosyl proteins and an increase in tissue c-src kinase activity. We conclude that protease-activated receptor no. 1- (thrombin receptor) mediated contractions in the logitudial muscle, like EGF receptor-activated responses, require the influx of extracellular calcium and use parallel signal pathways upstream of the cyclooxygenase step, involving MEK, PI3K, kinase C and possibly cellular src. The TF-induced response did not involve trans-activation of the EGF receptor kinase; but the converse (i.e., trans-activation of protease-activated receptor no. 1 (thrombin receptor) by the EGF receptor kinase) could not be ruled out.
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PMID:Parallel contractile signal transduction pathways activated by receptors for thrombin and epidermal growth factor-urogastrone in guinea pig gastric smooth muscle: blockade by inhibitors of mitogen-activated protein kinase-kinase and phosphatidyl inositol 3'-kinase. 953 28

Glutamate and dopamine are important neurotransmitters in the basal ganglia. Dopamine can act via D1 receptors to activate adenylyl cyclase in striatal neurons, while glutamate stimulation of NMDA receptors leads to an increase in intracellular calcium. Increases in intracellular calcium or cAMP can induce immediate early gene expression in striatal neurons. In the present study, NMDA receptor stimulation or adenylyl cyclase activation resulted in the activation of MAP kinase in striatal neurons in primary culture. The effect of cAMP appeared to involve cAMP-dependent protein kinase, in addition to a tyrosine kinase and MEK. NMDA-induced MAP kinase activation was also dependent on a tyrosine kinase and MEK. The EGF receptor, which has been implicated in calcium- and G protein-induced MAP kinase activation, did not mediate the effects of NMDA or forskolin on MAP kinase. Furthermore, the src kinase inhibitor, herbimycin A, and the phosphoinositol-3-kinase inhibitor, wortmannin, did not prevent MAP kinase activation by these stimuli. However, the ability of both NMDA and forskolin to activate MAP kinase in striatal neurons was blocked by SB 203580, an inhibitor of p38 reactivating kinase. These results indicate that both NMDA receptor activation and elevations in cAMP can result in MEK-induced MAP kinase activation in striatal neurons. However, the signal transduction pathways mediating these responses appear to be distinct from those known to mediate MAP kinase activation by other stimuli.
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PMID:Neurotransmitter regulation of MAP kinase signaling in striatal neurons in primary culture. 955 73

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