Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have isolated a novel protein kinase cDNA, PfPK6, by differential display RT-PCR (DDRT-PCR) of mRNA obtained from different asexual erythrocytic stages of Plasmodium falciparum, which shows sequence similarity to both cyclin-dependent kinase (CDK) and mitogen-activated protein kinase (MAPK) family members. The 915 bp open reading frame (ORF) is interrupted by seven introns and encodes a 305-residue polypeptide with a predicted molecular mass of 35848 Da. Several cDNA clones with some of the intron sequences were isolated, indicating alternate or defective splicing of PfPK6 transcripts because the gene seems to be a single copy located on chromosome 13. The similarity of the catalytic domain of PfPK6 to those of CDK2 and MAPK is 57.3% and 49.6%, respectively. The signature PSTAIRE (single-letter amino acid codes) CDK motif is changed to SKCILRE in PfPK6. The TXY residues that are phosphorylated in MAPKs for their activation are T(173)PT in PfPK6. Three size classes of PfPK6 transcripts of 6.5, 2.0 and 1.1 kb are up-regulated during the transition of P. falciparum from ring to trophozoite. Western blot analysis suggested the expression of a 35 kDa polypeptide in trophozoites and schizonts. Immunofluorescence studies indicated both nuclear and cytoplasmic localization of PfPK6 in trophozoite, schizont and segmenter stages. In vitro, recombinant PfPK6 phosphorylated itself and also exogenous substrates, histone and the small subunit of the malarial ribonucleotide reductase (R2). The kinase activity of PfPK6 is sensitive to CDK inhibitors such as olomoucine and roscovitine. PfPK6 showed a preference for Mn(2+) over Mg(2+) ions as a cofactor. The Lys(38)-->Arg mutant is severely defective in its interaction with ATP and bivalent cations and somewhat defective in catalytic rate for R2 phosphorylation.
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PMID:PfPK6, a novel cyclin-dependent kinase/mitogen-activated protein kinase-related protein kinase from Plasmodium falciparum. 1072 26

Recently, a novel peptide (Trp-Lys-Tyr-Met-Val-D-Met, WKYMVm) has been shown to induce superoxide generation in human monocytes. The peptide stimulated phospholipase A2 (PLA2) activity in a concentration- and time-dependent manner. Superoxide generation as well as arachidonic acid (AA) release evoked by treatment with WKYMVm could be almost completely blocked by pretreatment of the cells with cytosolic PLA2 (cPLA2)-specific inhibitors. The involvement of cPLA2 in the peptide-induced AA release was further supported by translocation of cPLA2 to the nuclear membrane of monocytes incubated with WKYMVm. WKYMVm-induced phosphatidylbutanol formation was completely abolished by pretreatment with PKC inhibitors. Immunoblot showed that monocytes express phospholipase D1 (PLD1), but not PLD2. GF109203X as well as butan-1-ol inhibited peptide-induced superoxide generation in monocytes. Furthermore, the interrelationship between the two phospholipases, cPLA2 and PLD1, and upstream signaling molecules involved in WKYMVm-dependent activation was investigated. The inhibition of cPLA2 did not blunt peptide-stimulated PLD1 activation or vice versa. Intracellular Ca2+ mobilization was indispensable for the activation of PLD1 as well as cPLA2. The WKYMVm-dependent stimulation of cPLA2 activity was partially dependent on the activation of PKC and mitogen-activated protein kinase, while PKC activation, but not mitogen-activated protein kinase activation, was an essential prerequisite for stimulation of PLD1. Taken together, activation of the two phospholipases, which are absolutely required for superoxide generation, takes place through independent signaling pathways that diverge from a common pathway at a point downstream of Ca2+.
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PMID:Independent functioning of cytosolic phospholipase A2 and phospholipase D1 in Trp-Lys-Tyr-Met-Val-D-Met-induced superoxide generation in human monocytes. 1075 2

Fibroblast growth factors (FGFs) are known to induce formation of new blood vessels, angiogenesis. We show that FGF-induced angiogenesis can be modulated using selectively desulfated heparin. Chinese hamster ovary cells (CHO677) deficient in heparan sulfate biosynthesis were employed to assess the function of heparin/heparan sulfate in FGF receptor-1 (FGFR-1) signal transduction and biological responses. In the presence of FGF-2, FGFR-1 kinase and subsequent mitogen-activated protein kinase Erk2 activities were augmented in a dose-dependent manner, whereas high concentrations of heparin resulted in decreased activity. The length of the heparin oligomer, minimally an 8/10-mer, was critical for the ability to enhance FGFR-1 kinase activity. The N- and 2-O-sulfate groups of heparin were essential for binding to FGF-2, whereas stimulation of FGFR-1 and Erk2 kinases by FGF-2 also required the presence of 6-O-sulfate groups. Sulfation at 2-O- and 6-O-positions was moreover a prerequisite for binding of heparin to a lysine-rich peptide corresponding to amino acids 160-177 in the extracellular domain of FGFR-1. Selectively 6-O-desulfated heparin, which binds to FGF-2 but fails to bind the receptor, decreased FGF-2-induced proliferation of CHO677 cells, presumably by displacing intact heparin. Furthermore, FGF-2-induced angiogenesis in chick embryos was inhibited by 6-O-desulfated heparin. Thus, formation of a ternary complex of FGF-2, heparin, and FGFR-1 appears critical for the activation of FGFR-1 kinase and downstream signal transduction. Preventing complex formation by modified heparin preparations may allow regulation of FGF-2 functions, such as induction of angiogenesis.
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PMID:Selectively desulfated heparin inhibits fibroblast growth factor-induced mitogenicity and angiogenesis. 1081 96

The interleukin-1 (IL-1) receptor colocalizes with focal adhesion complexes (FACs), actin-enriched structures involved in cell adhesion and signaling in fibroblasts and chondrocytes. The colocalization of FACs and IL-1 receptors has been implicated in the restriction of IL-1 signaling transduction to ERK; however, the mechanism of this restriction and the requirement of IL-1 receptor-associated proteins have not been characterized. We determined if the association kinetics of the interleukin-1 receptor-associated kinase (IRAK) colocalizes with FACs and the requirement for IRAK in IL-1-dependent ERK activation. Human gingival fibroblasts were incubated with collagen-coated beads to induce the assembly of FACs at sites of cell-bead contact. Immunoblot analysis of bead-isolated FACs showed a time-dependent assembly of the focal adhesion proteins beta-actin, vinculin, and talin, which was blocked by the actin monomer sequestering toxin latrunculin B. Although no IRAK was isolated with FACs from unstimulated cells, phosphorylated IRAK was transiently associated with FACs isolated from IL-1beta-stimulated fibroblasts. Fibroblasts plated on tissue culture plastic (which permitted the formation of focal adhesions) showed phosphorylation of ERK, JNK, and p38. Cells plated on poly-l-lysine (to prevent the formation of focal adhesions) showed activation only of JNK and p38. ERK activation was partially restored by incubating cells plated on poly-l-lysine with collagen-coated beads before IL-1 stimulation. Cells treated with latrunculin B or swinholide A, which caused a progressive depolymerization of actin filaments, showed a reduction or elimination of IL-1-induced ERK activation, respectively. Fibroblasts electroinjected with a mouse monoclonal anti-IRAK antibody to block the recruitment of IRAK into FACs failed to activate ERK after IL-1 treatment, indicating that FAC-associated IRAK is required for the activation of ERK. These data indicate that the integrity of actin filament arrays and the recruitment of IRAK into focal adhesions are involved in the restriction of IL-1 signaling to ERK.
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PMID:The recruitment of the interleukin-1 (IL-1) receptor-associated kinase (IRAK) into focal adhesion complexes is required for IL-1beta -induced ERK activation. 1082 34

Integrin-mediated substrate adhesion of endothelial cells leads to intracellular signaling, including the activation of ERK 1/2 (extracellular regulated kinases 1 and 2), members of the mitogen-activated protein kinase (MAPK) family. MKP-1 is a dual-specificity protein phosphatase that may play an important role in regulating MAPK activity through dephosphorylation of threonine and tyrosine. Adhesion of human umbilical vein endothelial cells to fibronectin increased MKP-1 protein and mRNA levels, which reached a maximum at 60 min, while MAPK activity was maximal at 30 min. The MEK inhibitor PD98059 blocked activation of MAPK as well as the induction of MKP-1 during adhesion. The transcription inhibitor actinomycin D blocked MKP-1 induction and produced prolonged MAPK activation during adhesion. In contrast, endothelial adhesion to poly-L-lysine did not alter MAPK activity or MKP-1 levels. These findings demonstrate that integrin-mediated adhesion of endothelial cells to fibronectin results in transcriptional activation of MKP-1 through a MAPK-dependent mechanism. Regulation of MKP-1 by MAPK likely represents an important negative-feedback mechanism.
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PMID:Adhesion to fibronectin enhances MKP-1 activation in human endothelial cells. 1087 41

The mitogen-activated protein (MAP) kinase Mkp1 of the fungal pathogen Pneumocystis carinii is a functional MAP kinase that complements the loss of Slt2p, the MAP kinase component of the cell integrity pathway of Saccharomyces cerevisiae, and is activated within P. carinii in response to oxidative stress. Mkp1 displays an unusual feature in that it contains a phosphorylation motif repeat (TEYMTEY) within the activation loop not present in any other fungal MAPK identified to date. Mutagenesis of the T186,Y188 phosphorylation motif within the activation domain of Mkp1 results in the loss of detectable kinase activity but still retains partial complementation function. In addition to the ability of Mkp1 to restore partial activity to the cell integrity pathway in the absence of phosphorylatable residues within the activation loop, the association of Mkp1 with a substrate of Slt2p, the transcription factor Rlm1p, can also occur in the absence of MAP kinase activation. The results of this study suggest that the presence of phosphorylatable residues within the activation loop of Mkp1 is not absolutely required for functional (complementation) activity or for the association of Mkp1 with the transcription factor Rlm1p. In contrast, the catalytic lysine of the ATP-binding domain of Mkp1 is necessary for both complementation function and interaction with Rlm1p.
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PMID:Mkp1 of Pneumocystis carinii associates with the yeast transcription factor Rlm1 via a mechanism independent of the activation state. 1088 67

The functions of the extracellular domains of neural cell adhesion molecule (NCAM) have been studied extensively, whereas the roles of the cytoplasmic domains of the transmembrane forms of NCAM are less elucidated. We investigated the importance of the cytoplasmic domain of the 140-kDa NCAM isoform (cytNCAM-140) and of the 180-kDa NCAM isoform (cytNCAM-180) in NCAM-induced neurite extension by estimating NCAM-dependent neurite outgrowth from PC12-E2 cells grown in coculture with NCAM-negative or NCAM-positive fibroblasts. PC12-E2 cells were transiently transfected with expression plasmids encoding cytNCAM-140, cytNCAM-180, the constitutively active form of the mitogen-activated protein (MAP) kinase/extracellular signal-regulated kinase kinase (MEK2), and the enhanced variant of the green fluorescent protein (EGFP). EGFP expression was used for identification of transfected cells. We found that expression of cytNCAM-180 had no effect on NCAM-stimulated neuritogenesis, whereas expression of cytNCAM-140 strongly inhibited this process. However, if MEK2 was expressed concomitantly with cytNCAM-140, neurite outgrowth was rescued, indicating that cytNCAM-140 is involved in signaling via the Ras-MAP kinase pathway. PC12-E2 cells were subsequently transiently transfected with constructs encoding a series of fragments of cytNCAM-140 and various full-length cytNCAM-140 mutants, and the residues Thr-Glu-Val-Lys-Thr (839-843) were identified as essential in NCAM-stimulated neuritogenesis. The combined substitution of Glu(840) and Lys(842) with Ala abrogated the effect of the construct, assigning a critical role to these two residues.
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PMID:Identification of an amino acid sequence motif in the cytoplasmic domain of the NCAM-140 kDa isoform essential for its neuritogenic activity. 1093 11

alpha(2A)-Adrenergic receptors (alpha(2A)AR) are presynaptic autoinhibitory receptors of noradrenergic neurons in the central and peripheral sympathetic nervous systems, which act to dynamically regulate neurotransmitter release. Signaling through the G(i)/G(o) family of G-proteins, the receptor subserves numerous homeostatic and central nervous system functions. A single nucleotide polymorphism of this receptor, which results in an Asn to Lys substitution at amino acid 251 of the third intracellular loop, was identified in the human population. The frequency of Lys-251 was 10-fold greater in African-Americans than in Caucasians, but was not associated with essential hypertension. To determine the consequences of this substitution, wild-type and Lys-251 receptors were expressed in CHO and COS-7 cells. Expression, ligand binding, and basal receptor function were unaffected by the substitution. However, agonist-promoted [(35)S]GTPgammaS binding was approximately 40% greater with the Lys-251 receptor. This enhanced agonist function was observed with catecholamines, azepines, and imidazolines albeit to different degrees. In studies of agonist-promoted functional coupling to G(i), the polymorphic receptor displayed enhanced inhibition of adenylyl cyclase (60 +/- 4. 4 versus 46 +/- 4.1% inhibition) and markedly enhanced stimulation of MAP kinase (57 +/- 9 versus 15- +/- 2-fold increase over basal) compared with wild-type alpha(2A)AR. The potency of epinephrine in stimulating inositol phosphate accumulation was increased approximately 4 fold with the Lys-251 receptor. Unlike previously described variants of G-protein-coupled receptors, where the minor species causes either a loss of function or increased non-agonist function, Lys-251 alpha(2A)AR represents a new class of polymorphism whose phenotype is a gain of agonist-promoted function.
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PMID:An asn to lys polymorphism in the third intracellular loop of the human alpha 2A-adrenergic receptor imparts enhanced agonist-promoted Gi coupling. 1094 91

The mitogen-activated protein (MAP) kinases are characterized by their requirement for dual phosphorylation at a conserved threonine and tyrosine residue for catalytic activation. The structural consequences of dual-phosphorylation in the MAP kinase ERK2 (extracellular signal-regulated kinase 2) include active site closure, alignment of key catalytic residues that interact with ATP, and remodeling of the activation loop. In this study, we report the specific effects of dual phosphorylation on the individual catalytic reaction steps in ERK2. Dual phosphorylation leads to an increase in overall catalytic efficiency and turnover rate of approximately 600,000- and 50,000-fold, respectively. Solvent viscosometric studies reveal moderate decreases in the equilibrium dissociation constants (K(d)) for both ATP and myelin basic protein. However, the majority of the overall rate enhancement is due to an increase in the rate of the phosphoryl group transfer step by approximately 60,000-fold. By comparison, the rate of the same step in the ATPase reaction is enhanced only 2000-fold. This suggests that optimizing the position of the invariant residues Lys(52) and Glu(69), which stabilize the phosphates of ATP, accounts for only part of the enhanced rate of phosphoryl group transfer in the kinase reaction. Thus, significant stabilization of the protein phosphoacceptor group must also occur. Our results demonstrate similarities between the activation mechanisms of ERK2 and the cell cycle control enzyme, Cdk2 (cyclin-dependent kinase 2). Rather than dual phosphorylation, however, activation of the latter is controlled by cyclin binding followed by phosphorylation at Thr(160).
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PMID:Mechanism of activation of ERK2 by dual phosphorylation. 1101 42

The intracellular signaling pathway for osteoblast adhesion to the orthopedic implant material Ti6Al4V (TIV) was investigated and compared to integrin-mediated adhesion to extracellular matrix proteins. Primary osteoblasts from fetal rat calvaria were plated onto TIV, fibronectin (FN), and poly-L-lysine (PLL) and the levels of focal adhesion kinase (FAK), mitogen-activated protein kinase (MAPK), and AP-1 transcription factors, c-fos and c-jun, were compared by Western and Northern blots. Cells on all substrates showed maximum FAK phosphorylation within 60 min and then a decrease at 2 and 24 h. However, the subsequent signal transduction pathway differed on PLL compared to TIV and FN. MAPK was phosphorylated similarly in osteoblasts attached to FN and TIV, whereas cells on PLL demonstrated no MAPK phosphorylation. On TIV and FN, c-fos and c-jun mRNA levels were maximal within 1 h and then plateaued or declined by 2 h. On PLL, they increased at 2 h. Within 1 h, c-fos protein was stimulated in cells attached to TIV and FN and decreased in cells on PLL. c-jun protein increased on all substrates compared to unplated cells. Cytoskeletal changes visualized by phalloidin fluorescence microscopy at 4 h of culture were delayed on TIV compared to FN. In addition, approximately 50% fewer cells adhered to TIV compared to FN or PLL. By 24 h, a well-spread cytoskeleton with focal adhesion sites was apparent on TIV and FN, but cells on PLL were rounded with minimal cell spreading. During 6 days of culture, cells on FN and TIV proliferated, whereas the number of cells on PLL remained the same or decreased, depending on the initial plating density. We conclude that osteoblast adhesion to TIV implants is similar to osteoblast adhesion to FN and leads to osteoblast proliferation. These data provide evidence for the biocompatibility of TIV at a molecular level.
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PMID:Integrin-mediated signaling in osteoblasts on titanium implant materials. 1103 57


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