EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Unipolar depression, alcoholism and suicide have become more common over the past decades. Genetic studies have attempted to link (bipolar) affective disorder to the short arm of chromosome 11 (where the loci for insulin, insulin growth factor (IGF), tyrosine hydroxylase (TH) and h-ras-oncogene are located) but these have failed. Since TH and the insulin receptor require phosphorylation by protein kinases, then a defect of the h-ras-oncogene or its products (p21) could disorder both these systems and compromise catecholaminergic transmission in neurones and energy flow in glial cells. This could lead not only to a predisposition to depression ('trait markers') but to neurotoxic damage, predisposed by inadequate cytosol Mg2+ levels of hypometabolism. Tyrosine, tryptophan and phenylalanine hydroxylases all require tetrahydrobiopterin (BH4) which allosterically regulates its own activity as well as that of these enzymes. Anything which impairs this cofactor could lead to overt depression in predisposed individuals, and the heterocyclic amines are being increasingly implicated. These substances are derived from fried and broiled meats, azo food dyes, soft drinks and hard candies, but particularly from cigarette and petroleum fumes. The heterocyclic amines can inhibit aromatic-l-amino-acid-decarboxylase (AADC) as well as the hydroxylases reversibly, but BH4 is inhibited noncompetitively. Thus, susceptible individuals (those with inherited defective protein kinase phosphorylation) might be 'tipped over' by chronic exposure to these neurotoxins. The rising incidence of unipolar depression-associated morbidity could be significantly linked to increasing levels of heterocyclic amines in the developed nations.
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PMID:The 'cerebral diabetes' paradigm for unipolar depression. 814 51

Signal transduction pathways that respond to external signals through the MAP kinase family of protein kinases are involved in diverse responses in eukaryotic cells. MAP kinases are one element in a series of kinases that serve to connect the plasma membrane with cytoplasmic and nuclear events. MAP kinases have the unusual feature that their activation requires threonine and tyrosine phosphorylation carried out by a dual specificity protein kinase. Recent advances have shown that in two MAP kinase pathways (the mating response pathway in the fission yeast Schizosaccharomyces pombe, and receptor tyrosine kinase signalling), the small GTP binding protein ras p21 links membrane events to kinase pathway activation.
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PMID:MAP kinase kinase kinase, MAP kinase kinase and MAP kinase. 819 45

Human T lymphocytes possess both the type I and II isozymes of protein kinase A (PKA). The type I (PKA-I) isozyme is predominantly associated with the plasma membrane, whereas the type II (PKA-II) isozyme is primarily localized to the cytosol. Because the functions of both PKA-I and PKA-II isozymes in the biochemical events of T lymphocyte activation have not been clearly elucidated, we tested the hypothesis that very early events of normal human T lymphocyte activation are mediated by the PKA-I and/or PKA-II isozyme(s). Fresh normal human T cells and a normal human CD4+ T cell line (GK606) activated with anti-CD3-epsilon and recombinant interleukin 1 alpha (rIL-1 alpha) exhibited a peak six- to sevenfold increase of PKA phosphotransferase activity at 5 min that returned to baseline by 60 min. Similarly, both fresh T cells and the T cell line activated by phorbol myristate acetate and ionomycin demonstrated a peak eightfold increase of PKA activity by 15 min that returned toward baseline by 60 min. Chromatographic separation of the PKA isozymes and quantification of phosphotransferase activities after T cell activation by either agonist pair showed preferential activation of the PKA-I isozyme, resulting in a significant reduction in the ratio of PKA-I to PKA-II isozyme activity from 3.1:1-6.2:1 to 1.1:1-3.2:1. PKA-I isozyme activation resulted in the release of free catalytic (C) subunit, an increase in C subunit phosphotransferase activity, and the phosphorylation of T cell plasma membrane-associated proteins, p14, p17, p20, p21, p38, and p48. However, activation of the PKA-I isozyme did not appear to be required for the transcription of IL-2 mRNA, an event necessary for mitosis. These data indicate that ligand-induced T cell activation is associated with rapid activation of the PKA-I, but not PKA-II, isozyme that results in phosphorylation of plasma membrane-associated proteins. The involvement of the PKA-I isozyme during the very early events of T cell activation suggests that this isozyme may be an antigen- or mitogen-stimulated protein kinase.
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PMID:Early events of human T lymphocyte activation are associated with type I protein kinase A activity. 822 35

The GTPase activity of p21ras is stimulated by GTPase-activating proteins (GAPs) such as p120GAP and the product of the neurofibromatosis 1 gene, which may negatively regulate p21 function. GAPs are also proposed effectors of ras. We have sought activating substitutions in c-H-ras in the region encoding the effector domain, on the rationale that such mutations would dissociate effector function from negative regulation by GAP. One such activating mutation, Pro-34-->Arg, encodes protein that is substantially bound to GTP in vivo. In vitro, this protein is not stimulated by GAPs, and its binding to p120GAP is grossly impaired. The results support the idea that the p21 structural requirements for effector function and GAP interaction are quite different and suggest that some molecule(s) other than p120GAP serves as the ras effector. In contrast to the results obtained with p120GAP, the Pro-34-->Arg p21 species is effectively coupled to the raf-1 product, as judged from electrophoretic mobility shifts of the Raf-1 phosphoprotein.
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PMID:Effector domain mutations dissociate p21ras effector function and GTPase-activating protein interaction. 824 52

Myc proteins have been implicated in the regulation of cell growth and differentiation. The identification of Max, a basic region/helix-loop-helix/leucine zipper protein, as a partner for Myc has provided insights into Myc's molecular function as a transcription factor. Recent evidence indicates that the relative abundance of Myc and Max is important to determine the level of specific gene transcription. In this report we have identified two major in vivo phosphorylation sites in Max (Ser-2 and -11) which can be modified in vitro by casein kinase II (CKII). Phosphorylation of these sites modulates DNA-binding by increasing both the on- and off-rates of Max homo- as well as Myc/Max heterodimers. In addition, our data indicate that the steady state binding of the shorter version of Max (p21) to DNA was similar yet its rate of dissociation faster than that of longer version of Max (p22). These data argue that different Max complexes have different kinetic properties and that these can be modified by CKII phosphorylation. We propose this as an important biological mechanism by which different dimeric complexes can exchange with varying efficiencies on DNA, thereby responding to changes in cell growth conditions.
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PMID:Identification of casein kinase II phosphorylation sites in Max: effects on DNA-binding kinetics of Max homo- and Myc/Max heterodimers. 824 25

Deregulation of cell proliferation is a hallmark of neoplastic transformation. Alteration in growth control pathways must translate into changes in the cell-cycle regulatory machinery, but the mechanism by which this occurs is largely unknown. Compared with normal human fibroblasts, cells transformed with a variety of viral oncoproteins show striking changes in the subunit composition of the cyclin-dependent kinases (CDKs). In normal cells, CDKs exist predominantly in multiple quaternary complexes, each containing a CDK, cyclin, proliferating cell nuclear antigen and the p21 protein. However, in many transformed cells, proliferating cell nuclear antigen and p21 are lost from these multiprotein enzymes. Here we have investigated the significance of this phenomenon by molecular cloning of p21 and in vitro reconstitution of the quaternary cell-cycle kinase complexes. We find that p21 inhibits the activity of each member of the cyclin/CDK family. Furthermore, overexpression of p21 inhibits the proliferation of mammalian cells. Our results indicate that p21 may be a universal inhibitor of cyclin kinases.
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PMID:p21 is a universal inhibitor of cyclin kinases. 825 7

We examined the effect of overexpression of growth factor-regulated second messenger enzymes, alone and in combination, on transformation of NIH3T3 cells. Signal transducers included phospholipase C-gamma (PLC-gamma), protein kinase C-gamma (PKC-gamma), and two proto-oncogenes, c-H-ras and c-raf-1. Three of these proteins, PLC-gamma, PKC-gamma and Raf-1, did not transform NIH3T3 cells alone or in combination. c-H-ras, which under its own promoter control has low transforming activity, also did not cooperate with PLC-gamma or PKC-gamma. In contrast, the combination of normal or oncogenic p21 H-Ras with the Raf-1 kinase dramatically increased transformation efficiency. The level of Ras protein required for transformation was reduced in Raf-1 co-transfectants, implying that, at low levels of p21 Ras, p74 Raf-1 is rate limiting. As transformation by Ras depends on jun-mediated transcriptional events, we also examined H-ras and c-raf-1 cooperation in transcriptional transactivation of TPA-responsive element (TRE)-dependent reporters. Like the H-ras/c-raf-1 cooperation in transformation, we observed this synergistic stimulation of TRE-dependent transcription. This pathway for transformation and transcriptional activation by increased levels of normal Ras and Raf may be important in tumors that show overexpression but lack mutationally activated forms of these two proto-oncogenes.
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PMID:H-ras and raf-1 cooperate in transformation of NIH3T3 fibroblasts. 836 57

Mitogen-activated protein (MAP) kinases Raf-1, pp60src, and p21ras all play important roles in the transfer of signals from the cell surface to the nucleus. We have used the baculovirus/Sf9 insect cell system to elucidate the regulatory relationships between pp60v-src, p21v-ras, MAP kinase (p44erk1/mapk), and Raf-1. In Sf9 cells, p44erk1/mapk is activated by coexpression with either v-Raf or a constitutively activated form of Raf-1 (Raf22W). In contrast, p44erk1/mapk is activated to only a limited extent by coexpression with either Raf-1 or p21v-ras alone. This activation of p44erk1/mapk is greatly enhanced by coexpression with both p21v-ras and Raf-1. Since we have previously shown that p21v-ras stimulates Raf-1 activity, the activation of p44erk1/mapk by p21v-ras may occur exclusively via a Raf-1-dependent pathway. However, a dominant-inhibitory mutant of Raf-1 (Raf301) does not block the activation of p44erk1/mapk by p21-v-ras. Further, pp60v-src, which activates Raf-1 at least as effectively as p21v-ras, fails to enhance p44erk1/mapk activity greatly when coexpressed with Raf-1. These data suggest that activation of p44erk1/mapk by p21v-ras may occur via both Raf-1-dependent and Raf-1-independent pathways.
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PMID:Raf-1 and p21v-ras cooperate in the activation of mitogen-activated protein kinase. 839 Jun 81

The cyclin-dependent kinase (CDK) inhibitor p27 binds and inhibits the kinase activity of several CDKs. Here we report an analysis of the behavior and partners of p27 in Swiss 3T3 mouse fibroblasts during normal mitotic cell cycle progression, as well as in cells arrested at different stages in the cycle by growth factor deprivation, lovastatin treatment, or ultraviolet (UV) irradiation. We found that the level of p27 is elevated in cells arrested in G0 by growth factor deprivation or contact inhibition. In G0, p27 was predominantly monomeric, although some portion was associated with residual cyclin A.Cdk2. During G1, all of p27 was associated with cyclin D1.Cdk4 and was then redistributed to cyclin A.Cdk2 as cells entered S phase. The loss of the monomeric p27 pool as cyclins accumulate in G1 is consistent with the in vivo and in vitro data showing that p27 binds better to cyclin.CDK complexes than to monomeric CDKs. In growing cells, the majority of p27 was associated with cyclin D1 and the level of p27 was significantly lower than the level of cyclin D1. In cells arrested in G1 with lovastatin, cyclin D1 was degraded and p27 was redistributed to cyclin A.Cdk2. In contrast to p21 (which is a p27-related CDK inhibitor and is induced by UV irradiation), the level of p27 was reduced after UV irradiation, but because cyclin D1 was degraded more rapidly than p27, there was a transient increase in binding of p27 to cyclin A.Cdk2. These data suggest that cyclin D1.Cdk4 acts as a reservoir for p27, and p27 is redistributed from cyclin D1.Cdk4 to cyclin A.Cdk2 complexes during S phase, or when cells are arrested by growth factor deprivation, lovastatin treatment, or UV irradiation. It is likely that a similar principle of redistribution of p27 is used by the cell in other instances of cell cycle arrest.
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PMID:Redistribution of the CDK inhibitor p27 between different cyclin.CDK complexes in the mouse fibroblast cell cycle and in cells arrested with lovastatin or ultraviolet irradiation. 853 16

RalGDS is a GDP/GTP exchange protein for ral p24, a member of small GTP-binding protein superfamily. We have recently shown that RalGDS interacts directly with the GTP-bound active form of ras p21 through the effector loop of ras p21 in vitro, in insect cells and in the yeast two-hybrid system. These results suggest that RalGDS functions as an effector protein of ras p21. Here, we report that RalGDS interacts with ras p21 in mammalian cells in response to an extracellular signal. Epidermal growth factor (EGF) induced the interaction of c-ras p21 and RalGDS in COS cells expressing both proteins, but not in the cells expressing RalGDS and c-ras p21T35A, which is an effector loop mutant of ras p21. We also found that cyclic AMP-dependent protein kinase (protein kinase A) regulated the selectivity of ras p21-binding to either RalGDS or Raf-1. Protein kinase A phosphorylated RalGDS as well as (1-149)Raf (amino acid residues 1-149). Although the phosphorylated (1-149)Raf had a lower affinity for ras p21 than the unphosphorylated (1-149)Raf, both the phosphorylated and unphosphorylated RalGDS had the similar affinities for ras p21. The phosphorylation of RalGDS did not affect its activity to stimulate the GDP/GTP exchange of ral p24. Pretreatment of COS cells with forskolin further stimulated the interaction of ras p21 and RalGDS induced by EGF under the conditions that EGF-dependent Raf-1 activity was inhibited. These results indicate that ras p21 distinguishes between RalGDS and Raf-1 by their phosphorylation by protein kinase A.
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PMID:Regulation of interaction of ras p21 with RalGDS and Raf-1 by cyclic AMP-dependent protein kinase. 855 Jun 24

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