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)

In previous studies, we have demonstrated that chronic administration of morphine or cocaine produces some common biochemical adaptations in the ventral tegmental area (VTA) and nucleus accumbens (NAc), components of the mesolimbic dopamine system implicated in the reinforcing actions of these and other drugs of abuse. Since this neural pathway is also implicated in the reinforcing actions of ethanol, it was of interest to determine whether chronic ethanol exposure results in similar biochemical adaptations. Indeed, as seen for chronic morphine and cocaine treatments, we show here that chronic ethanol treatment increased levels of tyrosine hydroxylase and glial fibrillary acidic protein immunoreactivity, and decreases levels of neurofilament protein immunoreactivity, in the VTA. Also like morphine and cocaine, ethanol increases levels of cyclic AMP-dependent protein kinase activity in the NAc. These actions of ethanol required long-term exposure to the drug, and were in most cases not seen in the substantia nigra or caudateputamen, components of the nigrostriatal dopamine system studied for comparison. Altered levels of tyrosine hydroxylase in catecholaminergic cells frequently reflect altered states of activation of the cells. Moreover, increasing evidence indicates that ethanol produces many of its acute effects on the brain by regulating NMDA glutamate and GABAA receptors. We therefore examined the influence of chronic ethanol treatment on levels of expression of specific glutamate and GABA receptor subunits in the VTA. It was found that long-term, but not short-term, ethanol exposure increased levels of immunoreactivity of the NMDAR1 subunit, an obligatory component of NMDA glutamate receptors, and of the GluR1 subunit, a component of many AMPA glutamate receptors; but at the same time, long-term ethanol exposure decreased immunoreactivity levels of the alpha 1 subunit of the GABAA receptor complex. These changes are consistent with an increased state of activation of VTA neurons inferred from the observed increase in tyrosine hydroxylase (TH) expression. These results demonstrate that chronic ethanol exposure results in several biochemical adaptations in the mesolimbic dopamine system, which may underlie prominent changes in the structural and functional properties of this neural pathway related to alcohol abuse and alcoholism.
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PMID:Biochemical actions of chronic ethanol exposure in the mesolimbic dopamine system. 886 59

Vimentin and glial fibrillary acidic protein (GFAP) are intermediate filament proteins expressed in the cytoplasm of various types of cells. The head domains of these proteins are phosphorylated by various protein kinases. Site- and phosphorylation-specific antibodies which recognize a phosphorylated serine/threonine residue in the head domains and its flanking sequence provide a useful tool to monitor and visualize protein kinase activities in single cells.
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PMID:Visualization of protein kinase activities in single cells by antibodies against phosphorylated vimentin and GFAP. 899 82

Site- and phosphorylation state-specific antibodies are useful to analyze spatiotemporal distribution of site-specific phosphorylation of target proteins in vivo. Using several polyclonal and monoclonal antibodies that can specifically recognize four phosphorylated sites on glial fibrillary acidic protein (GFAP), we have previously reported that Thr-7, Ser-13, and Ser-34 on this intermediate filament protein are phosphorylated at the cleavage furrow during cytokinesis. This observation suggests that there exists a protein kinase named cleavage furrow kinase specifically activated at metaphase-anaphase transition (Matsuoka, Y., Nishizawa, K., Yano, T., Shibata, M., Ando, S., Takahashi, T., and Inagaki, M. (1992) EMBO J. 11, 2895-2902; Sekimata, M., Tsujimura, K., Tanaka, J., Takeuchi, Y., Inagaki, N., and Inagaki, M. (1996) J. Cell Biol. 132, 635-641). Here we report that GFAP is phosphorylated specifically at Thr-7, Ser-13, and Ser-34 by Rho-associated kinase (Rho-kinase), which binds to the small GTPase Rho in its GTP-bound active form. The kinase activity of Rho-kinase toward GFAP is dramatically stimulated by guanosine 5'-(3-O-thio)-triphosphate-bound RhoA. Furthermore, the phosphorylation of GFAP by Rho-kinase results in a nearly complete inhibition of its filament formation in vitro. The possibility that Rho-kinase is a candidate for cleavage furrow kinase is discussed.
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PMID:Phosphorylation of glial fibrillary acidic protein at the same sites by cleavage furrow kinase and Rho-associated kinase. 909 67

Neurofilaments (NF) are the most abundant constituents of the neuronal cytoskeleton, while glial fibrillary acidic protein (GFAP) is a major component of the glial astrocyte cytoskeleton. These proteins can be phosphorylated by different protein kinases and they are regulated in a complex way by phosphorylation. Using a hippocampal cytoskeletal fraction we demonstrated that the behavioral tasks of inhibitory avoidance and habituation can differently alter the in vitro phosphorylation of the 150 kDa (NF-M) and the 68 kDa (NF-L) neurofilament subunits and of the GFAP. In order to verify the effect of habituation and inhibitory avoidance training on the phosphatase activity, we performed the time course-dephosphorylation assay (5-30 min of incubation of the cytoskeletal fraction with 32P-ATP). Subsequently we investigated the effect of these behavioral tasks on the protein kinase activities associated with the cytoskeletal fraction, carring out the 32P incorporation assays in the presence of specific kinase inhibitors. Results suggest that phosphatase activity is not altered in the cytoskeletal fraction by the behavioral tasks and that the increased in vitro phosphorylation of NF-M and NF-L caused by habituation is probably mediated by the Ca2+/calmodulin dependent protein kinase (CaMKII). However, the inhibition of GFAP in vitro phosphorylation caused by inhibitory avoidance training is probably related to the cAMP dependent protein kinase (PKA).
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PMID:The effects of behavioral tasks on the in vitro phosphorylation of intermediate filament subunits of rat hippocampus are mediated by CaMKII and PKA. 913 27

N6-O'2-dibutyryl cAMP (dbcAMP), N6-monobutyryl cAMP (N6-mbcAMP), 8-Chloro cAMP (ClcAMP), and O'2-monobutyryl cAMP (O'2-mbcAMP) were used to study glial fibrillary acidic protein (GFAP) induction in rat C6 glioma. With the exception of O'2-mbcAMP, these cAMP analogs induced GFAP after stimulation of cells with a concentration of 0.5-1 mM. Only dbcAMP and N6-mbcAMP increased the intracellular concentration of cAMP. Protein kinase A (PKA) activation is often proposed to be involved in GFAP expression in astrocytes. Ion-exchange chromatography indicated that protein kinase activity is associated with PKA type II in C6. dbcAMP, N6-mbcAMP, and ClcAMP upregulated the amount of cAMP-binding proteins approximately twofold. RI was upregulated in the cytosol and particulate fraction, whereas RII was not affected after stimulation with dbcAMP. Concomitant, the PKA activity decreased approximately 60% and 40% in the cytosol and particulate fraction, respectively. CREB is constitutively expressed in C6 and is downregulated after stimulation with dbcAMP. The membrane-permeable PKA inhibitor N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinoline sulfonamide (H89) did not suppress the induction of GFAP-mRNA and its translation into GFAP. On the contrary, depending on the time difference between H89 and dbcAMP addition to C6, GFAP synthesis could even be potentiated more than twofold. Experiments in the presence of cycloheximide showed that protein synthesis is necessary for GFAP transcription. Although all components of the PKA signal transduction pathway are present in C6, GFAP synthesis is not dependent on PKA activation but required the synthesis of an unidentified factor.
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PMID:Cyclic AMP-mediated induction of the glial fibrillary acidic protein is independent of protein kinase A activation in rat C6 glioma. 916 58

PKN is a serine/threonine protein kinase with a catalytic domain homologous to the protein kinase C family and unique N-terminal leucine zipper-like sequences. Using analyses with the yeast two-hybrid system and in vitro binding assay, we found that the regulatory domain of PKN interacted with vimentin. We then examined whether PKN would phosphorylate vimentin in vitro. Vimentin proved to be an excellent substrate for PKN, and the phosphorylation of vimentin by PKN occurred in the head domain with the result of a nearly complete inhibition of its filament formation in vitro. Similar results were also obtained with another type III intermediate filament protein, glial fibrillary acidic protein (GFAP). These results raise the possibility that PKN may regulate filament structures of vimentin and GFAP by domain-specific phosphorylation.
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PMID:Domain-specific phosphorylation of vimentin and glial fibrillary acidic protein by PKN. 917 63

We have characterized the expression and activity of the cell cycle regulatory machinery and the organization of the cytoskeleton of the p16(Ink4a)-deficient astrocytoma cell line, U343 MG-a (U343), following retinoic acid (RA) treatment. RA causes cell cycle arrest at low cell density and significant morphological changes in U343 cells, reflected by reorganization of the intermediate filament, GFAP, and actin. RA-induced cell cycle arrest is also associated with induction of p27Kip1 expression, inhibition of cdk2-associated kinase activity and alteration of the phosphorylation state of the pRB-family proteins. We next determined the effect of inducing expression of the cyclin dependent kinase inhibitors (CKI's), p16(Ink4a), p21Cip1/Waf1 or p27Kip1 on the proliferation and morphology of these malignant astrocytoma cells in the absence and presence of RA. Induction of p16, p21 or p27, using the tetracycline repressor system, potently inhibits proliferation of U343 cells. However, rather than resembling RA-treated cells, CKI-induced U343 cells become flat with abundant cytoplasm and perinuclear vacuolization. CKI-induced morphological alterations are accompanied by a significant reorganization of glial filaments within the cytoplasm. Interestingly, when U343 cells are growth arrested by p16, p21 or p27 induction and treated simultaneously with RA, a dramatic morphological change occurs, cells acquiring multiple long, tapering processes reminiscent of primary astrocytes. This rearrangement is accompanied by reorganization of GFAP, vimentin and actin. Vimentin specifically relocalizes to the tips of the long processes which form. The arrangement of intermediate filaments in these cells is, in fact, indistinguishable from their arrangement in primary human astrocytes. These data demonstrate that when a strong proliferative block, produced by CKI expression, occurs in conjunction with the morphogenic signals generated by RA, these p16-deficient malignant astrocytoma cells are induced to phenotypically resemble normal astrocytes.
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PMID:Retinoic acid and the cyclin dependent kinase inhibitors synergistically alter proliferation and morphology of U343 astrocytoma cells. 936 21

In previous work we showed that phosphorylation of the astrocyte marker glial fibrillary acidic protein (GFAP) in hippocampal slices from adult rats is dependent on external Ca2+, whereas in slices from immature rats aged 12-16 days postnatal 32P incorporation into GFAP is inhibited by external Ca2+. The nature of this late developmental change in Ca2+ sensitivity for GFAP phosphorylation was investigated in the present work by comparing in immature and adult animals phosphorylation of GFAP by endogenous protein kinase activity in cytoskeletal fractions and tryptic phosphopeptide maps prepared from cytoskeletal fractions labelled with [gamma-32P]ATP and from slices labelled with [32P]phosphate. Cytoskeletal fractions prepared from immature and adult hippocampus both contained endogenous protein kinase activity towards GFAP and other proteins stimulated by Ca2+/calmodulin and by cyclic AMP. The maps of GFAP isolated from the cytoskeletal fractions labelled in the presence of Ca2+/calmodulin were very similar and exhibited two major and several minor phosphopeptides. Comparison with maps derived from these fractions labelled in the presence of cyclic AMP showed that one of the major phosphopeptides was either directly or indirectly phosphorylated by Ca2+/calmodulin-stimulated kinase activity. Maps derived from GFAP isolated from adult slices labelled in the presence of Ca2+ and immature slices labelled in the absence of Ca2+ were qualitatively identical, with minor differences from the cytoskeletal maps. At both ages the slice maps displayed the phosphopeptide phosphorylated through the activity of a Ca2+/calmodulin kinase in the cytoskeletal fractions. By its migration properties this peptide appears to correspond to a sequence containing a site shown by other workers to be phosphorylated in vitro by CaM kinase II, suggesting that even in the absence of external Ca2+, kinase activity directly or indirectly dependent on Ca2+ was occurring in the immature slices. The near identity of the phosphorylation sites at the two ages suggest that the change in Ca2+ sensitivity of GFAP phosphorylation during development is not due to a change in the balance of kinase and phosphatase activities, but rather to a change in the mechanism(s) whereby Ca2+ controls the relative activity of these enzymes.
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PMID:Calcium-dependent phosphorylation of glial fibrillary acidic protein (GFAP) in the rat hippocampus: a comparison of the kinase/phosphatase balance in immature and mature slices using tryptic phosphopeptide mapping. 946 2

Manipulation of signal transduction pathways has been increasingly used to modulate tumor growth. We have investigated the effects of up-regulation of the cAMP/protein kinase A (PKA) pathway in cell lines and primary cultures of malignant gliomas. The malignant glioma cell line A-172 was treated with agonistic cAMP analogs dibutyryl cyclic AMP (dcAMP) and 8-bromo-cyclic AMP (8-Br-cAMP), an adenylate cyclase activator (forskolin), and a phosphodiesterase inhibitor (3-isobutyl-1-methyl-xanthene [IBMX]). Proliferation was determined by 3H-thymidine assay. Differentiation was measured by morphologic changes, glial fibrillary acidic protein (GFAP) content, and invasion potential. Apoptosis was measured quantitatively by the TUNEL method, which labels DNA fragments using terminal transferase. Agonistic cAMP analogs, forskolin, and IBMX were found to decrease proliferation in A-172 cells after 24 hours. Treatment with 8-Br-cAMP for 24 hours caused an increase in GFAP and decrease in invasion. Apoptosis was induced after 48 hours in the presence of synergistic cAMP analogs for the Type II PKA isozyme, but not Type I PKA isozyme. Activation of PKA by increasing cAMP levels (forskolin, IBMX) or directly by cAMP analogs correlated with decreased proliferation, increased differentiation, and induction of apoptosis in A-172 cells. Modulation of the cAMP/PKA pathway may thus represent a possible target site for treating malignant gliomas.
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PMID:Up-regulation of the cAMP/PKA pathway inhibits proliferation, induces differentiation, and leads to apoptosis in malignant gliomas. 948 14

Sodium-dependent transport into astrocytes is critical for maintaining the extracellular concentrations of glutamate below toxic levels in the central nervous system. In this study, the expression of the glial glutamate transporters GLT-1 and GLAST was studied in primary cultures derived from cortical tissue. In primary astrocytes, GLAST protein levels were approximately one half of those observed in cortical tissue, but GLT-1 protein was present at very low levels compared with cortical tissue. Maintenance of these astrocytes in medium supplemented with dibutyryl-cAMP (dbcAMP) caused a dramatic change in cell morphology, increased GLT-1 and GLAST mRNA levels approximately 5-fold, increased GLAST protein approximately 2-fold, and increased GLT-1 protein >/=8-20-fold. These increases in protein expression were accompanied by 2-fold increases in the Vmax and Km values for Na+-dependent L-[3H]glutamate transport activity. Although GLT-1 is sensitive to inhibition by dihydrokainate in heterologous expression systems, no dihydrokainate sensitivity was observed in astrocyte cultures that expressed GLT-1. Biotinylation with a membrane-impermeant reagent, separation of the biotinylated/cell surface proteins, and subsequent Western blotting demonstrated that both GLT-1 and GLAST were present at the cell surface. Coculturing of astrocytes with neurons also induced expression of GLT-1, which colocalized with the glial specific marker, glial fibrillary acidic protein. Neurons induced a small increase in GLAST protein. Several studies were performed to examine the mechanism by which neurons regulate expression of the glial transporters. Three different protein kinase A (PKA) antagonists did not block the effect of neurons on glial expression of GLT-1 protein, but the addition of dbcAMP to mixed cultures of neurons and astrocytes did not cause GLT-1 protein to increase further. This suggests that neurons do not regulate GLT-1 by activation of PKA but that neurons and dbcAMP regulate GLT-1 protein through convergent pathways. As was observed with GLT-1, the increases in GLAST protein observed in cocultures were not blocked by PKA antagonists, but unlike GLT-1, the addition of dbcAMP to mixed cultures of neurons and astrocytes caused GLAST protein to increase approximately 2-fold. Neurons separated from astrocytes with a semipermeable membrane increased GLT-1 protein, indicating that the effect of neurons was mediated by a diffusible molecule. Treatment of cocultures with high concentrations of either N-methyl-D-aspartate or glutamate killed the neurons, caused GLT-1 protein to decrease, and caused GLAST protein to increase. These studies suggest that GLT-1 and GLAST protein are regulated independently in astrocyte cultures and that a diffusible molecule secreted by neurons induces expression of GLT-1 in astrocytes.
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PMID:Regulation of the glial Na+-dependent glutamate transporters by cyclic AMP analogs and neurons. 949 99

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