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:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nonvisual arrestins (arrestin-2 and -3) serve as adaptors to link agonist-activated G protein-coupled receptors to the endocytic machinery. Although many G protein-coupled receptors bind arrestins, the molecular determinants involved in binding remain largely unknown. Because arrestins selectively promote the internalization of the alpha(2b)- and alpha(2c)-adrenergic receptors (ARs) while having no effect on the alpha(2a)AR, here we used alpha(2)ARs to identify molecular determinants involved in arrestin binding. Initially, we assessed the ability of purified arrestins to bind glutathione S-transferase fusions containing the third intracellular loops of the alpha(2a)AR, alpha(2b)AR, or alpha(2c)AR. These studies revealed that arrestin-3 directly binds to the alpha(2b)AR and alpha(2c)AR but not the alpha(2a)AR, whereas arrestin-2 only binds to the alpha(2b)AR. Truncation mutagenesis of the alpha(2b)AR identified two arrestin-3 binding domains in the third intracellular loop, one at the N-terminal end (residues 194-214) and the other at the C-terminal end (residues 344-368). Site-directed mutagenesis further revealed a critical role for several basic residues in arrestin-3 binding to the alpha(2b)AR third intracellular loop. Mutation of these residues in the holo-alpha(2b)AR and subsequent expression in HEK 293 cells revealed that the mutations had no effect on the ability of the receptor to activate ERK1/2. However, agonist-promoted internalization of the mutant alpha(2b)AR was significantly attenuated as compared with wild type receptor. These results demonstrate that arrestin-3 binds to two discrete regions within the alpha(2b)AR third intracellular loop and that disruption of arrestin binding selectively abrogates agonist-promoted receptor internalization.
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PMID:The third intracellular loop of alpha 2-adrenergic receptors determines subtype specificity of arrestin interaction. 1220 92

LCPTP (leucocyte-phosphotyrosine phosphatase) is a 42kDa protein tyrosine phosphatase expressed predominantly in haematopoietic cells which has been implicated in the early stages of the T cell receptor signalling pathway. The substrates of LCPTP have been shown to include MAP kinase family members, but it remains unclear whether LCPTP is found in stable constitutive association with these enzymes, or associates transiently during dephosphorylation. Here we report on LCPTP/MAP kinase interactions in CD3-stimulated Jurkat T cells. Pull-downs from Jurkat T cells using a recombinant GST-LCPTP substrate-trap protein, but not wild-type LCPTP show a clear specific association with both ERK1 and ERK2. In Jurkat cells overexpressing LCPTP, a small fraction of cell ERK1 can be immunoprecipitated in stable association with LCPTP. However, in both unstimulated and anti-CD3 antibody stimulated Jurkat T cells, we were unable to demonstrate any constitutive interaction between endogenous LCPTP and any MAP kinase family members. We propose that both ERK1 and ERK2 interact transiently with LCPTP as substrates for the phosphatase rather than as constitutive protein partners.
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PMID:LCPTP-MAP kinase interaction: permanent partners or transient associates? 1241 99

Global gene expression during the induction of ion pair-mediated apoptosis was evaluated by an apoptosis microarray system. Human bone marrow stromal cells were cultured in the presence of 10(-6) M dexamethasone to promote osteogenesis. After 28 days, these cells expressed elevated alkaline phosphatase activity and maintained Cbfa1 expression even when challenged with an apoptogen. Apoptosis was initiated by treating cells with 3 mM Ca(2+) and 5 mM Pi for 4 h. 32P-Labeled mRNA was hybridized to a human apoptosis microarray containing 205 cDNA fragments. We found that apoptosis influenced the expression of 15 genes mainly involved in cell cycle and cell signaling. These genes included IGFBPs and ERK1, known to play a role in cell survival; GST and GST mu, required for maintenance of thiol redox; TNFR1, a gene product that initiates cell death; and finally, BAD, a gene that encodes a proapoptotic protein. Real-time PCR analysis showed that the expression of ERK1, TNFR1, and GST was modulated by 1.89-, 2.66-, and 1.6 fold after 4 h and by 1-, 1.91-, and 1.5 fold, respectively, after 8 h treatment with the ion pair. In addition, we also measured the expression of Bcl-2 and Bax by quantitative RT-PCR. We noted that these two genes were increased 3.07 and 2.99 fold, respectively, after 8 h treatment with the apoptogen. Results of this study suggest that the ion pair influenced ERK1 and TNFR1 signaling pathways and affected thiol metabolism, whereas Bcl-2 and Bax were expressed at late stages of the death process.
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PMID:Detection of apoptotic gene expression in human osteoblast-like cells by cDNA microarrays. 1292 26

A synthetic K vitamin analogue, 2-(2-mercaptothenol)-3-methyl-1,4-naphthoquinone or Cpd 5, was previously found to be a potent inhibitor of cell growth [Nishikawa et al., (1995) J. Biol. Chem. 270, 28304-28310]. The mechanisms of cell growth were hypothesized to include the inactivation of cellular protein tyrosine phosphatases, especially the Cdc25 family [Tamura et al. (2000) Cancer Res. 60, 1317-1325]. In this study, we synthesized PD 49, a new biotin containing Cpd 5 derivative, to search for evidence of direct interaction of these arylating analogues with Cdc25A, Cdc25B, and Cdc25C phosphatases. PD 49 was shown to directly bind to GST-Cdc25A, GST-Cdc25B, their catalytic fragments, and GST-Cdc25C. The binding could be competed with excess glutathione or Cpd 5, and a cysteine-to-serine mutation of the catalytic cysteine abolished binding. This was consistent with an involvement in binding of cysteine in the catalytic domain. This interaction between PD 49 and Cdc25 also occurred in lysates of treated cells. PD 49 also bound to protein phosphatases other than Cdc25. We found that the new analogue also inhibited Hep3B human hepatoma cell growth. This growth inhibition involved ERK1/2 phosphorylation and was inhibited by a MEK antagonist. The results demonstrate a direct interaction and binding between this growth-inhibiting K vitamin derivative with both purified as well as with cellular Cdc25A, Cdc25B, and Cdc25C.
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PMID:Binding and inhibition of Cdc25 phosphatases by vitamin K analogues. 1295 Jan 76

Bim, a "BH3-only" protein, is expressed de novo following withdrawal of serum survival factors and promotes cell death. We have shown previously that activation of the ERK1/2 pathway promotes phosphorylation of Bim(EL), targeting it for degradation via the proteasome. However, the nature of the kinase responsible for Bim(EL) phosphorylation remained unclear. We now show that Bim(EL) is phosphorylated on at least three sites in response to activation of the ERK1/2 pathway. By using the peptidylprolyl isomerase, Pin1, as a probe for proline-directed phosphorylation, we show that ERK1/2-dependent phosphorylation of Bim(EL) occurs at (S/T)P motifs. ERK1/2 phosphorylates Bim(EL), but not Bim(S) or Bim(L), in vitro, and mutation of Ser(65) to alanine blocks the phosphorylation of Bim(EL) by ERK1/2 in vitro and in vivo and prevents the degradation of the protein following activation of the ERK1/2 pathway. We also find that ERK1/2, but not JNK, can physically associate with GST-Bim(EL), but not GST-Bim(L) or GST-Bim(S), in vitro. ERK1/2 also binds to full-length Bim(EL) in vivo, and we have localized a potential ERK1/2 "docking domain" lying within a 27-amino acid stretch of the Bim(EL) protein. Our findings provide new insights into the post-translational regulation of Bim(EL) and the role of the ERK1/2 pathway in cell survival signaling.
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PMID:Extracellular signal-regulated kinases 1/2 are serum-stimulated "Bim(EL) kinases" that bind to the BH3-only protein Bim(EL) causing its phosphorylation and turnover. 1468 Dec 25

Phosphorylation at Ser727 in signal transducer and activator of transcription 1 (STAT1) is essential for its activation and signal transduction. However, the upstream kinases responsible for phosphorylating Ser727 are still elusive. Here, we provide evidence showing that UVA-induced mitogen-activated protein kinase (MAPK) signaling pathways lead to STAT1 Ser727 phosphorylation. Our experimental results show that UVA-induced Ser727 phosphorylation of STAT1 was, to different degrees, diminished by PD98059 and U0126, two specific inhibitors of MEKs, and SB202190 and PD169316, inhibitors of p38 kinase and c-Jun N-terminal kinases (JNKs), respectively. STAT1 phosphorylation was also blocked by a dominant negative mutant of p38beta kinase or JNK1, JNK1- or JNK2-deficiency, or an N-terminal or C-terminal kinase-dead mutant of mitogen- and stress-activated protein kinase 1 (MSK1), a downstream kinase closer to p38 kinase and extracellular signal-regulated kinases (ERKs). In vitro kinase assays using the combined STAT1 proteins as substrates from immunoprecipitation and glutathione S-transferase pull down show that active ERK1, JNK1, p38 kinase, MEK1 and MSK1 stimulated phosphorylation of STAT1 (Ser727) indirectly through an unidentified factor or a downstream kinase. Overall, our data indicate that phosphorylation of STAT1 at Ser727 occurs through diverse MAPK cascades including MEK1, ERKs, p38 kinase, JNKs and MSK1 in the cellular response to UVA.
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PMID:Evidence of STAT1 phosphorylation modulated by MAPKs, MEK1 and MSK1. 1496 18

We examined the impact of purified bacterially synthesized GST-MDA-7 (IL-24) and ionizing radiation on the proliferation and survival of nonestablished human glioblastoma multiforme (GBM) cells. Glioma cell types expressing mutated PTEN and p53 molecules, activated ERBB1VIII, overexpressing wild type ERBB1 or without receptor overexpression were selected. In MTT assays, GST-MDA-7 caused a dose-dependent reduction in the proliferation of nonestablished glioma cells; however only at higher concentrations did GST-MDA-7 reduce cell viability. The anti-proliferative and cytotoxic effects of GST-MDA-7 were enhanced by radiation in a greater than additive fashion that correlated with JNK1/2/3 activation. The reduction in cell growth and enhancement in cell killing by the combination of GST-MDA-7 and radiation were blocked by an ROS scavenger, N-acetyl cysteine (NAC), a JNK1/2/3 inhibitor SP600125, a pan-caspase inhibitor (zVAD) and by an inhibitor of caspase 9 (LEHD), but not by an inhibitor of caspase 8 (IETD). Low concentrations of either GST-MDA-7 or radiation reduced clonogenic survival, however colony formation ability was significantly further decreased when the two treatments were combined, which was also blocked by inhibition of caspase 9 function. In general agreement with activation of the intrinsic caspase pathway, cell death correlated with reduced BCL-XL expression and with increased levels of the pro-apoptotic proteins BAD and BAX. Inhibition of caspase 9 after combination treatment blunted neither JNK1/2/3 activation nor the enhanced expression of BAD and BAX, but did block caspase 3 cleavage, reduced expression of BCL-XL and inhibition of ERK1/2 activity. In contrast, incubation with NAC blocked JNK1/2/3 activation and cell killing, but not the increases in BAD and BAX expression. These findings argue that after combination treatment JNK1/2/3 activation is a primary pro-apoptotic event and loss of BCL-XL expression and ERK1/2 activity are secondary caspase-dependent processes. This data also argues that GST- MDA-7 induces two parallel pro-apoptotic pathways via ROS-dependent and -independent mechanisms. Infection of primary human astrocytes with a recombinant adenovirus to express MDA-7, Ad.mda-7, but not infection with either Ad.cmv or Ad.mda-7SP- lacking MDA-7 secretion, resulted in the suppression of GBM cell colony formation in soft agar overlay assays, an effect that was enhanced in a greater than additive fashion by radiation. Collectively, our findings demonstrate that MDA-7 reduces proliferation and enhances the radiosensitivity of nonestablished human GBM cells in vitro, and when grown in 3 dimensions, and that sensitization occurs independently of basal EGFR/ERK1/2/AKT activity or the functions of PTEN and p53.
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PMID:MDA-7 regulates cell growth and radiosensitivity in vitro of primary (non-established) human glioma cells. 1532 89

Insulin-like growth factor-1 (IGF-1) is an angiogenic and oncogenic factor that activates signal transduction pathways involved in the expression of transcriptional regulators of tumorigenesis. RUNX2, a member of the Ig-loop family of transcription factors is expressed in vascular endothelial cells (EC) and regulates EC migration, invasion, and proliferation. Here we show that IGF-1 and its receptor regulate post-translational changes in RUNX2 to activate DNA binding in proliferating EC. The phosphatidylinositol 3-kinase (PI3K) inhibitor, LY294002, reduced both basal and IGF-1-stimulated RUNX2 DNA binding activity in the absence of changes in RUNX2 protein as did the overexpression of the phosphatidylinositol 3-phosphate phosphatase, confirming that PI3K signaling mediates RUNX2 activation. IGF-1 increased ERK1/2 activation, which was abrogated by the inhibition of PI3K, thus linking these two pathways in EC. Treatment with U0126, which inhibits ERK1/2 activation, reduced IGF-1-stimulated RUNX2 DNA binding without affecting RUNX2 protein levels. Overexpression of constitutively active MKK1 increased RUNX2 DNA binding and phosphorylation. No additive effects of PI3K or ERK inhibitors on DNA binding were evident. Surprisingly, these IGF-1-mediated effects on RUNX2 were not regulated by Akt phosphorylation, a common downstream target of PI3K, as determined by pharmacological or genetic inhibition. However, an inhibitor of the p21-activated protein kinase-1, glutathione S-transferase-Pak1-(83-149), inhibited both basal and IGF-1-stimulated RUNX2 DNA binding, suggesting that Pak1 mediates IGF-1 signaling to increase RUNX2 activity. These results indicate that the angiogenic growth factor, IGF-1, can regulate RUNX2 DNA binding through sequential activation of the PI3K/Pak1 and ERK1/2 signaling cascade.
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PMID:Insulin-like growth factor-1 regulates endogenous RUNX2 activity in endothelial cells through a phosphatidylinositol 3-kinase/ERK-dependent and Akt-independent signaling pathway. 1530 89

A widely expressed protein containing UBA (ubiquitin-associated) and UBX (ubiquitin-like) domains was identified as a substrate of SAPKs (stress-activated protein kinases). Termed SAKS1 (SAPK substrate-1), it was phosphorylated efficiently at Ser200 in vitro by SAPK3/p38gamma, SAPK4/p38delta and JNK (c-Jun N-terminal kinase), but weakly by SAPK2a/p38alpha, SAPK2b/p38beta2 or ERK (extracellular-signal-regulated kinase) 2. Ser200, situated immediately N-terminal to the UBX domain, became phosphorylated in HEK-293 (human embryonic kidney) cells in response to stressors. Phosphorylation was not prevented by SB 203580 (an inhibitor of SAPK2a/p38alpha and SAPK2b/p38beta2) and/or PD 184352 (which inhibits the activation of ERK1 and ERK2), and was similar in fibroblasts lacking both SAPK3/p38gamma and SAPK4/p38delta or JNK1 and JNK2. SAKS1 bound ubiquitin tetramers and VCP (valosin-containing protein) in vitro via the UBA and UBX domains respectively. The amount of VCP in cell extracts that bound to immobilized GST (glutathione S-transferase)-SAKS1 was enhanced by elevating the level of polyubiquitinated proteins, while SAKS1 and VCP in extracts were coimmunoprecipitated with an antibody raised against S5a, a component of the 19 S proteasomal subunit that binds polyubiquitinated proteins. PNGase (peptide N-glycanase) formed a 1:1 complex with VCP and, for this reason, also bound to immobilized GST-SAKS1. We suggest that SAKS1 may be an adaptor that directs VCP to polyubiquitinated proteins, and PNGase to misfolded glycoproteins, facilitating their destruction by the proteasome.
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PMID:A novel UBA and UBX domain protein that binds polyubiquitin and VCP and is a substrate for SAPKs. 1536 74

Mitogen-activated protein (MAP) kinase phosphatases (MKPs) are dual-specificity phosphatases that dephosphorylate phosphothreonine and phosphotyrosine residues within MAP kinases. Here, we describe a novel posttranslational mechanism for regulating MKP-3/Pyst1/DUSP6, a member of the MKP family that is highly specific for extracellular signal-regulated kinase 1 and 2 (ERK1/2) inactivation. Using a fibroblast model in which the expression of either MKP-3 or a more stable MKP-3-green fluorescent protein (GFP) chimera was induced by tetracycline, we found that serum induces the phosphorylation of MKP-3 and its subsequent degradation by the proteasome in a MEK1 and MEK2 (MEK1/2)-ERK1/2-dependent manner. In vitro phosphorylation assays using glutathione S-transferase (GST)-MKP-3 fusion proteins indicated that ERK2 could phosphorylate MKP-3 on serines 159 and 197. Tetracycline-inducible cell clones expressing either single or double serine mutants of MKP-3 or MKP-3-GFP confirmed that these two sites are targeted by the MEK1/2-ERK1/2 module in vivo. Double serine mutants of MKP-3 or MKP-3-GFP were more efficiently protected from degradation than single mutants or wild-type MKP-3, indicating that phosphorylation of either serine by ERK1/2 enhances proteasomal degradation of MKP-3. Hence, double mutation caused a threefold increase in the half-life of MKP-3. Finally, we show that the phosphorylation of MKP-3 has no effect on its catalytic activity. Thus, ERK1/2 exert a positive feedback loop on their own activity by promoting the degradation of MKP-3, one of their major inactivators in the cytosol, a situation opposite to that described for the nuclear phosphatase MKP-1.
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PMID:Extracellular signal-regulated kinases phosphorylate mitogen-activated protein kinase phosphatase 3/DUSP6 at serines 159 and 197, two sites critical for its proteasomal degradation. 1563 84


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