Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Monoclonal antibody MPM-2 recognizes a large family of mitotic phosphoproteins in a phosphorylation-dependent manner. The antigenic phosphoepitope, designated the MPM-2 epitope, putatively consists of hydrophobic residue-Thr/Ser-Pro-hydrophobic residue-uncharged/basic residue. In this study, we addressed whether this sequence motif contains all the information necessary for recognition and phosphorylation by the kinase that phosphorylates most MPM-2 antigens. A fusion protein between glutathione S-transferase and a 19-residue peptide that contained two representative MPM-2 epitope sequences overlapping with two potential MAP kinase phosphorylation sites was constructed. Both the MPM-2 epitope sequences in the fusion protein (GST-MPM2) were phosphorylated by Xenopus egg extract, making the fusion protein MPM-2 reactive. However, while MAP kinase phosphorylated both the MPM-2 epitope sequences, neither ME kinase-H, a good candidate for a major MPM-2 epitope kinase, nor mitotic cdc2 kinase, which is known to phosphorylate certain MPM-2 antigens in vitro, phosphorylated GST-MPM2 to any significant extent. Furthermore, depletion of MAP kinase activity removed most, if not all, of the GST-MPM2 phosphorylating activity from crude Xenopus egg extracts. These results suggest that additional or different structural information than that provided by the deduced MPM-2 epitope sequence is required for recognition and phosphorylation by ME kinase-H or other major MPM-2 epitope kinases. They also offer a valid explanation for selective phosphorylation of certain MPM-2 antigens by MAP kinase as well as selective recognition of certain phosphorylated MAP kinase substrates by MPM-2.
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PMID:MPM-2 epitope sequence is not sufficient for recognition and phosphorylation by ME kinase-H. 930 47

Byr2 protein kinase, a homolog of mammalian mitogen-activated protein kinase/extracellular signal-regulated kinase kinase (MEKK) and Saccharomyces cerevisiae STE11, is required for pheromone-induced sexual differentiation in the fission yeast Schizosaccharomyces pombe. Byr2 functions downstream of Ste4, Ras1, and the membrane-associated receptor-coupled heterotrimeric G-protein alpha subunit, Gpa1. Byr2 has a distinctive N-terminal kinase regulatory domain and a characteristic C-terminal kinase catalytic domain. Ste4 and Ras1 interact with the regulatory domain of Byr2 directly. Here, we define the domains of Byr2 that bind Ste4 and Ras1 and show that the Byr2 regulatory domain binds to the catalytic domain in the two-hybrid system. Using Byr2 mutants, we demonstrate that these direct physical interactions are all required for proper signaling. In particular, the physical association between Byr2 regulatory and catalytic domains appears to result in autoinhibition, the loss of which results in kinase activation. Furthermore, we provide evidence that Shk1, the S. pombe homolog of the STE20 protein kinase, can directly antagonize the Byr2 intramolecular interaction, possibly by phosphorylating Byr2.
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PMID:Multiple regulatory domains on the Byr2 protein kinase. 931 45

The activation of heat shock transcription factor-1 (HSF-1) after treatment of mammalian cells with stresses such as heat shock, heavy metals, or ethanol induces the synthesis of heat shock proteins. HSF-1 is phosphorylated at normal growth temperature and is hyperphosphorylated upon stress. We recently presented evidence that HSF-1 can be phosphorylated by the mitogen activated protein kinase, ERK1, and that such phosphorylation appears to negatively regulate the activity of HSF-1. In this report, we have tested the ability of ERK1 to phosphorylate various HSF-1 deletion mutants. Our results show that ERK1 phosphorylation is dependent on a region of HSF-1 extending from amino acids 280 to 308. This region contains three serine residues that are potential ERK1 phosphorylation sites. The region falls within a previously defined regulatory domain of HSF-1. The possibility of protein kinases other than ERK1 phosphorylating HSF-1 was also examined using in-gel kinase assays. The results show that HSF-1 can be phosphorylated in a ras-dependent manner by other members of the MAP kinase family such as JNK and p38 protein kinases and possibly others.
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PMID:Analysis of the phosphorylation of human heat shock transcription factor-1 by MAP kinase family members. 932 38

TNF-alpha regulates the expression of many proinflammatory and profibrogenic gene products in macrophages, and hence plays a vital role in controlling the inflammatory response. We have shown previously that exposure of macrophages to TNF-alpha stimulates the activation of members of the mitogen-activated protein kinase (MAPK) family. In this study, we have investigated the mechanism of activation of the p38mapk by TNF-alpha in mouse bone marrow-derived macrophages. Exposure to TNF-alpha resulted in the activation of p38mapk, as measured by 1) the trans-phosphorylation of recombinant activating transcription factor-2 substrate by immunoprecipitated p38mapk and 2) specific tyrosine phosphorylation of immunoprecipitated p38mapk. In addition, selective ligation of the TNF-alpha receptor CD120a (p55) with human TNF-alpha was sufficient to induce p38mapk activation. Using an in vitro kinase assay with recombinant kinase-inactive p38mapk as substrate in the presence of [gamma-32P]ATP, the upstream kinases MKK3 (mitogen-activated protein kinase kinase 3) and MKK4 were found to be activated in response to TNF-alpha. These findings suggest that TNF-alpha transiently phosphorylates and activates the three members of the MAPK family, namely p42(mapk/erk2), p46 c-Jun amino-terminal kinase/stress-activated protein kinase (JNK/SAPK), and p38mapk following cross-linking of CD120a (p55), and that MKK3 and MKK4 are capable of phosphorylating p38mapk.
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PMID:Activation of p38mapk, MKK3, and MKK4 by TNF-alpha in mouse bone marrow-derived macrophages. 937 49

Big MAP kinase 1 (BMK1), also known as ERK5, is a mitogen-activated protein (MAP) kinase member whose biological role is largely undefined. We have shown previously that the activity of BMK1 in rat smooth muscle cells is up-regulated by oxidants. Here, we describe a constitutively active form of the MAP kinase kinase, MEK5(D), which selectively activates BMK1 but not other MAP kinases in vivo. Through utilization of MEK5(D), we have determined that a member of the MEF2 transcription factor family, MEF2C, is a protein substrate of BMK1. BMK1 dramatically enhances the transactivation activity of MEF2C by phosphorylating a serine residue at amino acid position 387 in this transcription factor. Serum is also a potent stimulator of BMK1-induced MEF2C phosphorylation, since a dominant-negative form of BMK1 specifically inhibits serum-induced activation of MEF2C. One consequence of MEF2C activation is increased transcription of the c-jun gene. Taken together, these results strongly suggest that in some cell types the MEK5/BMK1 MAP kinase signaling pathway regulates serum-induced early gene expression through the transcription factor MEF2C.
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PMID:BMK1/ERK5 regulates serum-induced early gene expression through transcription factor MEF2C. 938 84

Increased serine phosphorylation of insulin receptor substrate-1 (IRS-1) has been observed in several systems to correlate with a decreased ability of the insulin receptor to tyrosine-phosphorylate this endogenous substrate and to inhibit its subsequent association with phosphatidylinositol 3-kinase. In the present studies we have examined the potential role of the mitogen-activated protein (MAP) kinase in the increased serine phosphorylation of IRS-1 observed in human embryonic kidney cells treated with an activator of protein kinase C, phorbol 12-myristate 13-acetate. First, recombinantly produced kinase was shown to phosphorylate intact IRS-1 in a way that decreased the ability of isolated insulin receptor to phosphorylate the tyrosines recognized by the SH2 domains of the phosphatidylinositol 3-kinase. Second, an inhibitor of MAP kinase activation, PD98059, blocked the phorbol 12-myristate 13-acetate-induced inhibition of the insulin-stimulated increase in IRS-1 associated phosphatidylinositol 3-kinase. Third, activation of MAP kinase in intact cells via a regulatable upstream kinase, a RAF:estrogen receptor construct, could also inhibit the insulin-stimulated increase in IRS-1-associated phosphatidylinositol 3-kinase. Fourth, an in gel kinase assay showed that MAP kinase was the primary renaturable kinase in cell extracts capable of phosphorylating an IRS-1 fusion protein. Finally, IRS-1 was found to associate in coprecipitation studies with endogenous MAP kinase. These studies implicate MAP kinase as one of the kinases capable of phosphorylating and regulating IRS-1 tyrosine phosphorylation.
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PMID:Modulation of insulin receptor substrate-1 tyrosine phosphorylation and function by mitogen-activated protein kinase. 939 71

Mitogen-activated protein kinase-activated protein kinase-1 (MAPKAP-K1; also known as p90rsk) contains two protein kinase domains in a single polypeptide. The N-terminal kinase domain is necessary for the phosphorylation of peptide substrates, whereas the C-terminal kinase domain is required for full activation of the N-terminal domain. Here we identify six sites in MAPKAP-K1a that become phosphorylated in transfected COS-1 cells. The inactive form of MAPKAP-K1a in unstimulated cells is partially phosphorylated at Ser222 and Ser733. Stimulation with phorbol 12-myristate 13-acetate induces the phosphorylation of Thr360, Ser364, Thr574, and Ser381 and increases the phosphorylation of Ser222 and Ser733. Our data indicate that mitogen-activated protein kinase activates the C-terminal kinase domain by phosphorylating Thr574 and contributes to the activation of the N-terminal kinase domain by phosphorylating Ser364. The activated C-terminal domain phosphorylates Ser381, which, together with phosphorylation of Ser364, activates the N-terminal kinase domain. The phosphorylation of Ser222 and Ser733, which can be catalyzed by the N-terminal domain, does not activate MAPKAP-K1a per se, but Ser222 phosphorylation appears to be required for activation. Ser222, Ser364, and Ser381 are situated in analogous positions to phosphorylation sites in protein kinase B, protein kinase C, and p70S6K, suggesting a common mechanism of activation for these growth factor-stimulated protein kinases.
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PMID:Identification of regulatory phosphorylation sites in mitogen-activated protein kinase (MAPK)-activated protein kinase-1a/p90rsk that are inducible by MAPK. 943 Jun 88

When deprived of nerve growth factor (NGF), developing sympathetic neurons die by apoptosis. This death is associated with an increase in the level of c-Jun protein and is blocked by expression of a c-Jun dominant negative mutant. Here we have investigated whether NGF withdrawal activates Jun kinases, a family of stress-activated protein kinases that can stimulate the transcriptional activity of c-Jun by phosphorylating serines 63 and 73 in the transactivation domain and which can activate c-jun gene expression. We found that sympathetic neurons contained high basal levels of Jun kinase activity that increased further after NGF deprivation. In contrast, p38 kinase, another stress-activated protein kinase that can also stimulate c-jun gene expression, was not activated after NGF withdrawal. Consistent with Jun kinase activation, we found using a phospho-c-Jun-specific antibody that c-Jun was phosphorylated on serine 63 after NGF withdrawal. Furthermore, expression of a constitutively active form of MEK kinase 1 (MEKK1), which strongly activates the Jun kinase pathway, increased c-Jun protein levels and c-Jun phosphorylation and induced apoptosis in the presence of NGF. This death could be prevented by co-expression of SEKAL, a dominant negative mutant of SAPK/ERK kinase 1 (SEK1), an activator of Jun kinase that is a target of MEKK1. In contrast, expression of SEKAL alone did not prevent c-Jun expression, increases in c-Jun phosphorylation, or cell death after NGF withdrawal. Thus, activation of Jun kinase and increases in c-Jun phosphorylation and c-Jun protein levels occur at the same time after NGF withdrawal, but c-Jun levels and phosphorylation are regulated by an SEK1-independent pathway.
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PMID:Role of the Jun kinase pathway in the regulation of c-Jun expression and apoptosis in sympathetic neurons. 946 96

Insulin-like growth factor-I (IGF-I) receptors activate divergent signaling pathways by phosphorylating multiple cellular proteins, including insulin receptor substrate-1 (IRS-1) and the Shc proteins. Following hormone binding, IGF-I receptors cluster into clathrin-coated pits and are internalized via an endocytotic mechanism. This study investigates the relationship between IGF-I receptor internalization and signaling via IRS-1 and Shc. A mutation in the C terminus of the IGF-I receptor decreased both the rate of receptor internalization and IGF-I-stimulated Shc phosphorylation by more than 50%, but did not affect IRS-1 phosphorylation. Low temperature (15 degrees C) decreased IGF-I receptor internalization and completely inhibited Shc phosphorylation. Although receptor and IRS-1 phosphorylation were decreased in accordance with delayed binding kinetics at 15 degrees C, the ratio of IRS-1 to receptor phosphorylation was increased more than 2-fold. Dansylcadaverine decreased receptor internalization and Shc phosphorylation, but did not change receptor or IRS-1 phosphorylation. Consistent with these findings, dansylcadaverine inhibited IGF-I-stimulated Shc-Grb2 association, mitogen-activated protein kinase phosphorylation, and p90 ribosomal S6 kinase activation, but did not affect the association of phosphatidylinositide 3-kinase with IRS-1 or activation of p70 S6 kinase. These data support the concept that Shc/mitogen-activated protein kinase pathway activation requires IGF-I receptor internalization, whereas the IRS-1 pathway is activated by both cell surface and endosomal receptors.
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PMID:Insulin-like growth factor-I receptor internalization regulates signaling via the Shc/mitogen-activated protein kinase pathway, but not the insulin receptor substrate-1 pathway. 946 28

We previously reported that a single intraperitoneal injection of prolactin (PRL) in female adult rats rapidly and transiently activates mitogen-activated protein kinase (MAPK) in the liver (Piccoletti et al., (1994) Biochem. J. 303, 429-423). Here we analysed the PRL signalling pathway that accounts for MAPK activation. We found that total liver MAPK kinase-1 phosphorylating activity and Raf-1 activity significantly increase after PRL treatment, following a time course that accounts for the activation of MAPK. We also identified a significant increase in the phosphotyrosine content of the 52 kDa Shc protein, accompanied by an increase in Shc coimmunoprecipitated Grb2, which suggests the Ras involvement by PRL. We found that Janus kinase (JAK)2 tyrosine kinase, which appears constitutively associated with the PRL receptor expressed in the liver, is activated and associated with Shc proteins after in vivo PRL treatment. Taken together our data provide evidence that in vivo PRL activates the Shc Ras Raf MAPK cascade in the liver by the involvement of JAK2 and suggests the possibility that the liver short form of PRL receptor plays a role in triggering this signalling pathway.
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PMID:Signal transduction pathway of prolactin in rat liver. 948 13


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