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)

The plant-derived natural product ellagic acid (1) has recently been identified as a potent, though nonselective, inhibitor of the tyrosine-specific protein kinase pp60src. This report details efforts directed toward the identification of tricyclic structures related to ellagic acid, with enhanced specificity for inhibition of pp60src over other protein kinases. Phenanthridinone and carbazole core structures were selected for investigation, since N-functionalization allows for the synthesis of numerous analogs which can be utilized to probe enzyme-inhibitor interactions. These ring systems were prepared via a general sequence of biaryl bond formation followed by cyclization to form the desired tricyclic ring systems. N-Alkylation, -acylation, or -sulfonylation and deprotection with boron tribromide afford the target tetraphenolic phenanthridinones 5 and carbazoles 9. Several analogs from both of these series have potencies comparable to that of 1 and exhibit substantially enhanced selectivities for inhibition of pp60src relative to protein kinase A (PKA), a serine/threonine protein kinase. Carbazole-based analogs 9j,m,p are submicromolar inhibitors of pp60src, with potency for the target tyrosine kinase comparable to that of ellagic acid (1), however with 2 orders of magnitude greater selectivity versus that for PKA. As seen for ellagic acid, members of the phenanthridinone-based series (e.g., 5a) exhibited inhibition of pp60src in a manner which is partial mixed noncompetitive with respect to ATP, while analogs in the carbazole series (e.g., 9a) inhibit pp60src in an ATP competitive manner.
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PMID:Identification of tricyclic analogs related to ellagic acid as potent/selective tyrosine protein kinase inhibitors. 751 23

The Bcl-2 protein blocks a distal step in an evolutionarily conserved pathway for programmed cell death and apoptosis. To gain better understanding of how this protein functions, we have undertaken a structure-function analysis of this protein, focusing on domains within Bcl-2 that are required for function and for interactions with other proteins. Four conserved domains are present in Bcl-2 and several of its homologs: BH1 (residues 136-155), BH2 (187-202), BH3 (93-107) and BH4 (10-30). Deletion of the BH1, BH2, or BH4 domains of Bcl-2 abolishes its ability to suppress cell death in mammalian cells and prevents homodimerization of these mutant proteins, though these mutants can still bind to the wild-type Bcl-2 protein. These mutants also fail to bind to BAG-1 and Raf-1, two proteins that we have shown can associate with protein complexes containing Bcl-2 and which cooperate with Bcl-2 to suppress cell death. Deletion of either BH1 or BH2 nullifies the ability of Bcl-2 to: (a) suppress death in mammalian cells: (b) block Bax-induced lethality in yeast; and (c) heterodimerize with Bax. In contrast, deletion of the BH4 domain of Bcl-2 nullifies anti-apoptotic function and homodimerization, but does not impair binding to the pro-apoptotic protein Bax. Taken together, the data suggest the possibility that both Bcl-2/Bcl-2 homodimerization and Bcl-2/Bax heterodimerization are necessary but insufficient for the anti-apoptotic function of the Bcl-2 protein. Homodimerization of Bcl-2 with itself involves a head-to-tail interaction, in which an N-terminal domain where BH4 resides interacts with the more distal region of Bcl-2 where BH1, BH2, and BH3 are located. In contrast, Bcl-2/Bax heterodimerization involves a tail-to-tail interaction, that requires the portion of Bcl-2 where BH1, BH2, and BH3 reside and a central region in Bax where the BH3 domain is located. The BH3 domain of Bax is also required for Bax/Bax homodimerization and pro-apoptotic function in both yeast and mammalian cells. Thus, Bcl-2 may suppress cell death at least in part by binding to Bax via the BH3 domain and thereby preventing formation of Bax/Bax homodimers. Further studies however are required to delineate the full significance of Bcl-2/Bcl-2, Bcl-2/Bax, and Bax/Bax dimers and the biochemical mechanisms by which Bcl-2 family proteins ultimately control cell life and death.
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PMID:Structure-function analysis of Bcl-2 family proteins. Regulators of programmed cell death. 891 Jun 75

To understand the insulin-induced activation of 6-phosphofructo-2-kinase (PFK-2) of the bifunctional enzyme PFK-2/fructose-2,6-bisphosphatase in heart, the effect of phosphorylation by protein kinases of the insulin signaling pathways on PFK-2 activity was studied. Purified PFK-2/fructose-2, 6-bisphosphatase from bovine heart is a mixture of two isoforms (Mr 58,000 and 54,000 on SDS-polyacrylamide gels). The Mr 54,000 protein is an alternatively spliced form, lacking phosphorylation sites for protein kinases. Recombinant enzymes corresponding to the Mr 58,000 (BH1) and Mr 54,000 (BH3) forms were expressed and used as substrates for phosphorylation. The recombinant BH1 isoform was phosphorylated by p70 ribosomal S6 kinase (p70(s6k)), mitogen-activated protein kinase-activated protein kinase-1, and protein kinase B (PKB), whereas the recombinant BH3 isoform was a poor substrate for these protein kinases. Treatment with all protein kinases activated PFK-2 in the recombinant BH1 preparation. Phosphorylation of the recombinant BH1 isoform correlated with PFK-2 activation and was reversed by treatment with protein phosphatase 2A. All the protein kinases phosphorylated Ser-466 and Ser-483 in the BH1 isoform, but to different extents: p70(s6k) preferentially phosphorylated Ser-466, whereas mitogen-activated protein kinase-activated protein kinase-1 and PKB phosphorylated Ser-466 and Ser-483 to a similar extent. We propose that PKB is part of the insulin signaling cascade for PFK-2 activation in heart.
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PMID:Phosphorylation and activation of heart 6-phosphofructo-2-kinase by protein kinase B and other protein kinases of the insulin signaling cascades. 921 63

The Bcl-2 family protein BAD promotes apoptosis by binding through its BH3 domain to Bcl-x(L) and related cell death suppressors. When BAD is phosphorylated on either Ser(112) or Ser(136), it forms a complex with 14-3-3 in the cytosol and no longer interacts with Bcl-x(L) at the mitochondria. Here we show that phosphorylation of a distinct site Ser(155), which is at the center of the BAD BH3 domain, directly suppressed the pro-apoptotic function of BAD by eliminating its affinity for Bcl-x(L). Protein kinase A functioned as a BAD Ser(155) kinase both in vitro and in cells. BAD Ser(155) was found to be a major site of phosphorylation induced following stimulation by growth factors and prevented by protein kinase A inhibitors but not by inhibitors of the phosphatidylinositol 3-kinase/Akt pathway. Growth factors inhibited BAD-induced apoptosis in both a Ser(112)/Ser(136)- and a Ser(155)-dependent fashion. Thus, growth factors engage an anti-apoptotic signaling pathway that inactivates BAD by direct modification of its BH3 cell death effector domain.
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PMID:Growth factors inactivate the cell death promoter BAD by phosphorylation of its BH3 domain on Ser155. 1083 73

BIK is a pro-apoptotic BCL-2 family member and is the founding member of a subfamily of pro-apoptotic proteins known as "BH3-alone" proteins. Ectopic expression of BIK induces apoptosis in variety of mammalian cells. BIK complexes with various anti-apoptotic BCL-2 family proteins such as adenovirus E1B-19K and BCL-2 via the BH3 domain. However, the heterodimerization activity of BIK alone is insufficient for its apoptotic activity. Previous studies have shown that phosphorylation regulates the functional activity of both anti-apoptotic and pro-apoptotic members of the BCL-2 family. Here, we have examined phosphorylation of BIK and its effect on the apoptotic activity of BIK. We show that BIK exists as a phosphoprotein and is phosphorylated at residues 33 (threonine) and 35 (serine). Mutation of the phosphorylation sites, in which the Thr and Ser residues were changed to alanine residues, reduced the apoptotic activity of BIK without significantly affecting its ability to heterodimerize with BCL-2. Our results suggest that phosphorylation of BIK is required for eliciting efficient apoptotic activity. Partial purification of the protein kinase from HeLa cell cytoplasmic extracts suggest that BIK may be phosphorylated by a casein kinase II-related enzyme.
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PMID:Phosphorylation of the pro-apoptotic protein BIK: mapping of phosphorylation sites and effect on apoptosis. 1108 41

A mechanism that triggers neuronal apoptosis has been characterized. We report that the cell cycle-regulated protein kinase Cdc2 is expressed in postmitotic granule neurons of the developing rat cerebellum and that Cdc2 mediates apoptosis of cerebellar granule neurons upon the suppression of neuronal activity. Cdc2 catalyzes the phosphorylation of the BH3-only protein BAD at a distinct site, serine 128, and thereby induces BAD-mediated apoptosis in primary neurons by opposing growth factor inhibition of the apoptotic effect of BAD. The phosphorylation of BAD serine 128 inhibits the interaction of growth factor-induced serine 136-phosphorylated BAD with 14-3-3 proteins. Our results suggest that a critical component of the cell cycle couples an apoptotic signal to the cell death machinery via a phosphorylation-dependent mechanism that may generally modulate protein-protein interactions.
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PMID:Cdc2 phosphorylation of BAD links the cell cycle to the cell death machinery. 1204 37

BAD is a BH3-only protein, and its proapoptotic activity is negatively regulated by serine phosphorylation. Here, we show that overexpression of BAD preferentially augments anchorage loss-induced apoptosis (anoikis). Gene transfer-mediated BAD overexpression alone did not induce apoptosis in attached MDCK cells but strongly augmented apoptosis when cells were cultured in suspension. In contrast, overexpression of another BH3-only protein, BID, displayed much lower augmentation of anoikis, suggesting a preferential contribution of BAD to anoikis. During suspension culture, unphosphorylated BAD was gradually increased and targeted to the mitochondria. Cotransfection of BAD with constitutively active Akt cDNA strongly inhibited this change. In contrast, the increase of unphosphorylated BAD was not significantly inhibited by several phosphatase inhibitors or cotransfection with a dominant negative calcineurin cDNA, implying that the increase may be mainly due to a decrease of serine kinase activity, such as that of Akt. Similar results were observed in COS-7 cells, suggesting that BAD overexpression can increase sensitivity of anchorage-dependent cancer cells to anoikis. Thus, we propose that BAD can serve as a valuable gene therapeutic molecule to inhibit carcinoma progression.
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PMID:Overexpression of BAD preferentially augments anoikis. 1294 97

Kainic acid induces excitotoxicity and nerve cell degeneration in vulnerable regions of rat brain, most markedly in hippocampus and amygdala. Part of the cell death following kainic acid is apoptotic as shown by caspase 3 activation and chromatin condensation. Here we have studied the regulation of pro- and anti-apoptotic proteins belonging to the Bcl-2 family in rat hippocampus and amygdala by kainic acid in relationship to ensuing neuronal death. The pro-apoptotic protein Bax was up-regulated in hippocampus 6 h after kainic acid administration. The increase in Bax was followed by the appearance of TdT-mediated dUTP nick end labelling-positive cells which were prominent at 24 h. Immunohistochemistry for active Bax revealed a punctuated labelling of neurons in the CA3 and hilar regions of hippocampus as well as in amygdala. Double staining for NeuN, a marker for nerve cells, and TdT-mediated dUTP nick end labelling showed that mainly neurons undergo degeneration after kainic acid treatment. In contrast to Bax, the pro-apoptotic BH3-only Bcl-2 proteins Bim and Harakiri/DP5 were down-regulated by kainic acid. This was also observed for the anti-apoptotic proteins Bcl-x and Bcl-w. Immunoreactive Bcl-2 was up-regulated in hippocampus after kainic acid together with an increase in the phosphorylation of serine-87 in Bcl-2, suggesting a post-transcriptional modification of the protein. This was confirmed using immunoprecipitation of total Bcl-2 from hippocampus and amygdala which revealed an increase in serine-87 phospho-Bcl-2 after kainic acid. Inhibition of the c-jun N-terminal protein kinase pathway reduced both serine-87 phosphorylation and cell death after kainic acid. This indicates an important role of Bcl-2 phosphorylation in controlling neuronal death after kainic acid. In contrast to the situation in trophic factor-deprived neurons, no up-regulation of Bim or Harakiri/DP5 proteins occurred after kainic acid, suggesting alternative pathways for regulation of cell death in excitotoxicity. The results indicate that not only the relative levels of Bcl-2 family proteins but also conformation changes and post-translational modifications contribute to neuronal death following kainic acid.
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PMID:Increase in Bcl-2 phosphorylation and reduced levels of BH3-only Bcl-2 family proteins in kainic acid-mediated neuronal death in the rat brain. 1295 12

Pro-apoptotic functions of the BH3-only protein BAD are negatively regulated by survival signal-mediated phosphorylation at several serine residues. Recently, we found that the mutant BAD (BADD119G) with an amino acid substitution of Asp (Asp119 to Gly) within the BH3 domain displays strong pro-apoptotic activity in serum-starved COS-7 cells, although it cannot interact with Bcl-2. Here, we demonstrate that the BADD119G loses phosphorylation-mediated negative regulation. Importantly, pro-apoptotic activity of wild-type BAD (BADwt) was strongly suppressed by co-transfection with constitutively active Akt (CA-Akt) cDNA, whereas that of BADD119G was not. In these transfectants, BADD119G phosphorylation was barely detectable at serine residues (S75 and S99), although BADwt phosphorylation was clearly increased by CA-Akt. In addition, various external stimuli UV, TPA and forskolin could not phosphorylate BADD119G neither at S75, S99 nor S118 in COS-7 cells. However, in vitro kinase assay revealed that catalytic protein kinase A (PKA) strongly phosphorylated both BADs at S75 and S118, excluding the possibility that the target sequence of PKA was disrupted by mutation at S119. Furthermore, as a result of disrupted phosphorylation, BADD119G could not physically interact with 14-3-3. Taken together, disruption of phosphorylation-mediated negative regulation may explain, at least in part, the strong pro-apoptotic functions of BADD119G, and suggest a role for the BH3 domain in phosphorylation events.
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PMID:Mutation of BAD within the BH3 domain impairs its phosphorylation-mediated regulation. 1296 20

Viruses have evolved different strategies to interfere with apoptotic pathways in order to halt cellular responses to infection. The herpes simplex virus 1 (HSV-1) Us3 open-reading frame encodes a serine/threonine protein kinase that participates in the inhibition of apoptosis induced by virus infection and other stress agents. Previous studies have shown that Us3 counteracts the virus-induced activation of caspase-3 by acting at a premitochondrial stage. Using stable transfectants that express Us3 under the control of constitutive or inducible promoters we demonstrate that apoptosis induced by treatment with anti-Fas antibody and sorbitol is blocked when Us3 is expressed at levels comparable to those achieved during virus infection. Expression of Us3 correlated with phosphorylation of Bad, a BH3-only proapoptotic Bcl-2 family member that is also a target for growth factor-induced cellular kinases. Bad was phosphorylated by Us3 in in vitro kination assays. These results point to a strategy for viral inhibition of apoptosis based on functional inactivation of a critical component of the cellular death machinery.
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PMID:The Us3 protein kinase of herpes simplex virus 1 blocks apoptosis and induces phosporylation of the Bcl-2 family member Bad. 1459 23

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