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)

MKK1/MKK2 and SLT2 (MPK1) are three Saccharomyces cerevisiae genes, coding for protein kinases, that have been postulated to act sequentially as part of the Pkc1p signalling pathway, a phosphorylation cascade essential for cell integrity. By using the 'two-hybrid system' and co-purification experiments on glutathione-agarose beads, we have shown that Slt2p interacts in vivo and in vitro with both Mkk1p and Mkk2p, thus confirming a previous suggestion based on epistasis experiments of the corresponding genes. Plasmid constructs of the SLT2 gene, deleted in the whole C-terminal non-kinase region or part of it, and therefore containing all of the conserved kinase subdomains, were still functional in complementation of the slt2 lytic phenotype and in vivo interaction with Mkk1p and Mkk2p. In contrast, the Slt2p C-terminal domain (162 residues) that carries a glutamine-rich fragment followed by a 16 polyglutamine tract, was shown to be dispensable for complementation and in vivo association with Mkk1p and Mkk2p. We have also demonstrated that the N-terminal putative regulatory domain of these two MAP kinase activators is the main region involved in the interaction with Slt2p.
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PMID:Characterization of domains in the yeast MAP kinase Slt2 (Mpk1) required for functional activity and in vivo interaction with protein kinases Mkk1 and Mkk2. 859 33

We have investigated the effect of glucose deprivation treatment on the activation of mitogen activated protein kinases (MAPKs) in the drug-sensitive human breast carcinoma cells (MCF-7) and its drug resistant variant (MCF-7/ADR) cells. Western blots and in-gel kinase assays showed that glucose free medium was a strong stimulus for the activation of MAPK in MCF-7/ADR cells. No activation was seen in MCF-7 cells. MAPK was activated within 3 min of being in glucose free medium and it remained activated for over 1 h in MCF-7/ADR cells. After being returned to complete medium, 1 h was required for the MAPK to become deactivated. To investigate whether alternative sources of ATP could inhibit glucose deprivation induced MAPK activation, we added glutamine and glutamate to glucose deprived medium. The addition of glutamine did not reverse glucose deprivation induced MAPK activation in MCF-7/ADR cells. The addition of glutamate, however, decreased the MAPK activation and the length of time of activation. We observed an increase greater than three fold in MEK, Raf, Ras, and PKC activity with glucose deprivation in MCF-7/ADR cells. This suggests that glucose deprivation-induced MAPK activation is mediated through this signal transduction pathway.
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PMID:Differential effect of glucose deprivation on MAPK activation in drug sensitive human breast carcinoma MCF-7 and multidrug resistant MCF-7/ADR cells. 914 15

Human sperm capacitation involves complex signal transduction mechanisms during which double phosphorylation of the threonine-glutamine-tyrosine motif (P-Thr-Glu-Tyr-P) occurs in some sperm proteins. The objective of this study was to investigate the regulation of this process. Fetal cord serum ultrafiltrate (FCSu), follicular fluid ultrafiltrate (FFu), progesterone and a combination of N(6),2'-O-dibutyryl cAMP (dbcAMP; cell permeant analogue of cAMP) and 3-isobutyl-1-methylxanthine (IBMX; phosphodiesterase inhibitor) were used as inducers of capacitation alone or in combination with inhibitors of protein kinase A (H89), protein kinase C (chelerythrine), protein tyrosine kinase (tyrphostin A47, PP2) and of dual specificity kinase (MEK-like kinases; PD98059). The level of P-Thr-Glu-Tyr-P in sperm proteins of 80 and 105 kDa during capacitation induced by FCSu, FFu and progesterone was regulated by a similar signal transduction pathway and involved receptor type protein tyrosine kinase and dual specificity kinase (MEK or MEK-like) but not protein kinase A or C. However, the level of P-Thr-Glu-Tyr-P in these sperm proteins during capacitation induced by dbcAMP+IBMX was mainly mediated through protein kinase A and C and receptor type protein tyrosine kinase, but not by dual specificity kinase. In conclusion, human sperm capacitation induced by some biological and pharmacological agents is regulated through very different signal transduction pathways.
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PMID:Different signal transduction pathways are involved during human sperm capacitation induced by biological and pharmacological agents. 1220 Apr 58

Glutamine is an essential nutrient for gut functions, but the regulation of its uptake by intestinal mucosal cells is poorly understood. Given the pivotal role of epidermal growth factor (EGF) in regulating gut metabolism, growth, and differentiation, this in vitro study was designed to investigate the intracellular signaling pathways involved in the regulation of EGF-mediated intestinal glutamine transport in intestinal epithelia. Continuous incubation with EGF (>30 hours, 100 ng/ml) stimulated glutamine transport activity across intestinal epithelial Caco-2 cell apical membrane. Exposure to EGF for 48 hours resulted in an increase in transport activity (50%) and glutamine transport system B gene ATB(0) mRNA levels (ninefold). EGF stimulated glutamine transport activity by increasing the glutamine transporter maximal velocity (V(max)) without altering the transporter apparent affinity (K(m)). Furthermore, EGF stimulated both intracellular protein kinase C and mitogen-activated protein kinase MEK1/2 activities. The EGF-stimulated glutamine transport activity was attenuated individually by the specific protein kinase C inhibitor chelerythrine chloride and the mitogen-activated protein kinase MEK1 inhibitor PD 98059. These data suggest that EGF activates glutamine transport activity across intestinal epithelial membrane via a signaling mechanism that involves activation of protein kinase C and the mitogen-activated protein kinase MEK1/2 cascade. EGF activates glutamine transport via alterations in transporter mRNA levels and the number of functional copies of transporter units.
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PMID:Epidermal growth factor activation of intestinal glutamine transport is mediated by mitogen-activated protein kinases. 1255 96

Reactive oxygen species (superoxide anion, hydrogen peroxide, and nitric oxide) are involved in human sperm capacitation and associated tyrosine (Tyr) phosphorylation through a cAMP- and protein kinase A-mediated pathway. Recently, we evidenced the double phosphorylation of the threonine-glutamine-Tyr motif (P-Thr-Glu-Tyr-P) in human sperm proteins of 80 and 105 kDa during capacitation. The objective of the present study was to investigate the role of reactive oxygen species in the regulation of this process and to immunolocalize the P-Thr-Glu-Tyr-P motif in human spermatozoa. Superoxide dismutase and catalase did not prevent, and exogenous addition of superoxide anion or hydrogen peroxide did not trigger, the increase in P-Thr-Glu-Tyr-P related to sperm capacitation. However, l-NAME (a competitive inhibitor of l-arginine for nitric oxide synthase) prevented, and a nitric oxide donor promoted, the increase in P-Thr-Glu-Tyr-P related to sperm capacitation. In addition, l-arginine reversed the inhibitory effect of l-NAME on capacitation and the associated increase of P-Thr-Glu-Tyr-P. Therefore, the regulation of P-Thr-Glu-Tyr-P is specific to nitric oxide and not to superoxide anion or hydrogen peroxide. The nitric oxide-mediated increase of P-Thr-Glu-Tyr-P involved protein Tyr kinase, MEK or MEK-like kinase, and protein kinase C but not protein kinase A. The P-Thr-Glu-Tyr-P motif was immunolocalized to the principal piece region of spermatozoa. In conclusion, nitric oxide regulates the level of P-Thr-Glu-Tyr-P in sperm proteins of 80 and 105 kDa during capacitation. These data evidence, to our knowledge for the first time, a specific role for nitric oxide in signal transduction events leading to sperm capacitation.
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PMID:Nitric oxide regulates the phosphorylation of the threonine-glutamine-tyrosine motif in proteins of human spermatozoa during capacitation. 1260 10

Mixed lineage kinases (MLKs) belong to the family of mitogen activated protein kinase kinase kinase (MAPKKK) and cause neuronal cell death mediated through c-Jun, N-terminal kinase (JNK) pathway. Recently, genetic studies in Drosophila revealed the presence of an MLK termed slipper (slpr). However, its biochemical features like physiological substrate, role in different MAPK pathways and developmental and tissue-specific expression pattern were not reported. Here, we report cDNA cloning, expression analysis and biochemical characterization of a Drosophila mixed lineage kinase (dMLK) that is also known as slipper. The protein structure analysis of dMLK/slipper revealed, in addition to the conserved domains, a stretch of glutamine in the amino terminus and an asparagine-threonine stretch at the carboxy-terminus. In situ hybridization and reverse transcriptase polymerase chain reaction (RT-PCR) analysis revealed that dMLK is expressed in early embryonic stages, adult brain and thorax. Ectopic expression of dMLK either in Drosophila S2 or in mammalian HEK293 cells leads to activation of JNK, p38 and extracellular signal regulated kinase (ERK) pathways. Further, dMLK directly phosphorylates Hep, dMKK4 and also their mammalian counterparts, MKK7 and SEK1, in an in vitro kinase assay. Taken together, our results provide for the first time a comprehensive expression profile and new biochemical insight of dMLK/slipper.
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PMID:Drosophila mixed lineage kinase/slipper, a missing biochemical link in Drosophila JNK signaling. 1267 57

Phospholipase C-gamma1 (PLC-gamma1) hydrolyzes phosphatidylinositol 4,5-bisphosphate to the second messengers inositol 1,4,5-trisphosphate and diacylglycerol (DAG). PLC-gamma1 is implicated in a variety of cellular signalings and processes including mitogenesis and calcium entry. However, numerous studies demonstrate that the lipase activity is not required for PLC-gamma1 to mediate these events. Here, we report that the phospholipase activity of PLC-gamma1 plays an essential role in nerve growth factor (NGF)-triggered Raf/MEK/MAPK pathway activation in PC12 cells. Employing PC12 cells stably transfected with an inducible form of wild-type PLC-gamma1 or lipase inactive PLC-gamma1 with histidine 335 mutated into glutamine in the catalytic domain, we show that NGF provokes robust activation of MAP kinase in wild-type but not in lipase inactive cells. Both Ras/C-Raf/MEK1 and Rap1/B-Raf/MEK1 pathways are intact in the wild-type cells. By contrast, these signaling cascades are diminished in the mutant cells. Pretreatment with cell permeable DAG analog 1-oleyl-2-acetylglycerol rescues the MAP kinase pathway activation in the mutant cells. These observations indicate that the lipase activity of PLC-gamma1 mediates NGF-regulated MAPK signaling upstream of Ras/Rap1 activation probably through second messenger DAG-activated Ras and Rap-GEFs.
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PMID:Phospholipase activity of phospholipase C-gamma1 is required for nerve growth factor-regulated MAP kinase signaling cascade in PC12 cells. 1457 Sep 2

Adenylate cyclase (MAC1) and the catalytic subunit of cAMP-dependent protein kinase A (CPKA) are required for appressorium development and pathogenesis in the rice blast pathogen Magnaporthe grisea. To identify new components in the cAMP signal transduction pathway, we used the yeast two-hybrid system to screen MAC1 and CPKA against an appressorium cDNA library. The cDNA library was constructed by GATEWAY recombinational cloning, enabling transfer of the library to various alternative vectors. The protein phosphatase domain in MAC1, which is unique to fungal adenylate cyclases, interacted with a MAP kinase kinase and a Ser/Thr kinase. Interactions of MAC1 with the kinases may prove to be part of feedback loops between the corresponding signaling pathways. A predicted membrane protein, ACI1, which is highly expressed under conditions that are conducive to appressorium formation, also interacted with MAC1. ACI1 has an extracellular domain containing eight-cysteines, which is also present in other fungal proteins implicated in pathogenesis. The N-terminal half of CPKA, which includes a glutamine-rich sequence unique to a group of fungal sequences, interacted with a putative transcriptional regulator and two different glycosyl hydrolases. Phosphorylation motifs in these sequences suggest that they could be CPKA substrates. The protein interaction assay employed here can now be scaled up to identify interactions between a larger set of proteins in the M. grisea interactome.
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PMID:Identification of proteins that interact with two regulators of appressorium development, adenylate cyclase and cAMP-dependent protein kinase A, in the rice blast fungus Magnaporthe grisea. 1464 99

Glutamine is an essential nutrient for cell integrity during acidotic states such as shock, but the effect of extracellular pH on intestinal mucosal cell glutamine uptake is poorly understood. The purpose of this in vitro study was to investigate the intracellular signaling pathways involved in controlling intestinal glutamine transport during acidosis. Lowering the pH in the cell culture medium resulted in an increase in glutamine transport activity in a time- and pH-dependent fashion. Chronic acidosis (pH 6.6 for 48 hours) resulted in a twofold increase in glutamine transport activity (1.63+/-0.25 nmole/mg protein/minute in acidosis vs. 0.78+/-0.11 nmole/mg protein/minute in control) and a threefold increase in glutamine transport gene ATB(0) messenger RNA levels. This acidosis-induced increase in glutamine transport activity was due to a stimulation of transporter maximal transport capacity (V(max) 13.6+/-0.73 nmole/mg protein/minute in acidosis vs. 6.3+/-0.46 nmole/mg protein/minute in control) rather than a change in transporter affinity (K(m)=0.23+/-0.02 mmol/L glutamine in acidosis vs. 0.19+/-0.02 mmol/L glutamine in control). This acidosis-stimulated glutamine transport activity was blocked by actinomycin-D or cycloheximide. Cellular mitogen-activated protein kinase (MAPK) MEK1/2 and p42/44 levels were elevated in acidotic cells, and the acidosis-induced glutamine transport activity was blocked by the MAPK MEK 1 inhibitor PD 98059. Acidosis stimulates glutamine transport in Caco-2 cells via signaling pathways that lead to transcription of the glutamine transporter gene and translation of functional transporters. Mitogen-activated protein kinases are key intracellular regulators involved in this signal transduction cascade. An increased availability of glutamine to cells subjected to redox stress may help in maintaining cellular integrity.
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PMID:Metabolic acidosis stimulates intestinal glutamine absorption. 1467 14

Insulin-like growth factor-2 (IGF-2) plays a pivotal role in regulating intestinal epithelial metabolism, growth, and proliferation, but its regulatory effects on mucosal cell amino acid transport have not been well studied. The purpose of this in vitro study was to investigate the regulatory mechanisms and intracellular signaling pathways involved in the regulation of IGF-2 on glutamine transport in cultured intestinal cells. Continuous incubation with IGF-2 stimulated glutamine transport activity in cultured IEC-6 cells in a dose- and time-dependent fashion. Prolonged incubation (up to 48 hours) resulted in a 50% increase in transport activity (0.81+/-0.21 nmole/mg protein/min in IGF-2 cells vs. 0.57+/-0.15 nmole/mg protein/min in control cells) and a threefold increase in glutamine transporter ATB(0) mRNA levels. IGF-2 stimulated transport activity by increasing transport maximal capacity (V(max) 4.31+/-0.36 nmole/mg protein/min in IGF-2 cells vs. 2.51+/-0.23 nmole/mg protein/min in control cells) without affecting the transport affinity (K(m) 0.31+/-0.03 mmol/L glutamine in IGF-2 cells vs. 0.28+/-0.03 mmol/L glutamine in control cells). This IGF-2-induced glutamine transport activity was attenuated by actinomycin-D or cycloheximide. The levels of mitogen-activated protein kinases p42/44, MEK1/2, and p38 as well as protein kinase C levels were elevated in IGF-2-treated cells and inhibitors of mitogen-activated protein kinase MEK1 (PD 98059), mitogen-activated protein kinase p38, and protein kinase C (chelerythrine chloride) individually attenuated the IGF-2-induced glutamine transport. These data suggest that IGF-2 stimulates intestinal glutamine uptake in cultured rat intestinal epithelial cells via a mechanism that involves transcription and translation of the transporter. Activation of mitogen-activated protein kinases and protein kinase C cascades are involved in the regulation. This increase in glutamine uptake may occur to support intestinal cell growth and proliferation.
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PMID:Insulin-like growth factor-2 activation of intestinal glutamine transport is mediated by mitogen-activated protein kinases. 1474 34

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