EC:2.7.11.1 - FACTA Search

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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 cyclic AMP (cAMP) signaling pathway is central in beta-cell gene expression and function. In the nucleus, protein kinase A (PKA) phosphorylates CREB, resulting in recruitment of the transcriptional coactivators p300 and CREB binding protein (CBP). CBP, but not p300, is phosphorylated at serine 436 in response to insulin action. CBP phosphorylation disrupts CREB-CBP interaction and thus reduces nuclear cAMP action. To elucidate the importance of the cAMP-PKA-CREB-CBP pathway in pancreatic beta cells specifically at the nuclear level, we have examined mutant mice lacking the insulin-dependent phosphorylation site of CBP. In these mice, the CREB-CBP interaction is enhanced in both the absence and presence of cAMP stimulation. We found that islet and beta-cell masses were increased twofold, while pancreas weights were not different from the weights of wild-type littermates. beta-Cell proliferation was increased both in vivo and in vitro in isolated islet cultures. Surprisingly, glucose-stimulated insulin secretion from perfused, isolated mutant islets was reduced. However, beta-cell depolarization with KCl induced similar levels of insulin release from mutant and wild-type islets, indicating normal insulin synthesis and storage. In addition, transcripts of pgc1a, which disrupts glucose-stimulated insulin secretion, were also markedly elevated. In conclusion, sustained activation of CBP-responsive genes results in increased beta-cell proliferation. In these beta cells, however, glucose-stimulated insulin secretion was diminished, resulting from concomitant CREB-CBP-mediated pgc1a gene activation.
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PMID:Increased pancreatic beta-cell proliferation mediated by CREB binding protein gene activation. 1690 41

In addition to its function as a cyclin-dependent kinase (cdk) inhibitor, p21waf1 fulfills additional roles involved in DNA replication and transcriptional regulation that could also contribute to cell cycle arrest. In this study, we have shown that p21waf1 functions as a transcriptional repressor of the myc and cdc25A genes. Ectopic expression of the cell cycle inhibitor down-modulates myc and cdc25A transcription but has no effect on cdk4 levels. Using chromatin immunoprecipitation, we found that p21waf1 is recruited to the promoters of these two genes together with the STAT3 and E2F1 transcription factors. Its presence on DNA is associated with an inhibition of the recruitment of the p300 histone acetylase and with a down-regulation of histone H4 acetylation. The same effect was also observed following DNA damage because topoisomerase inhibitors such as sn38 or doxorubicin also induce the association of p21waf1 with DNA. Following transcriptional repression of the myc and cdc25A genes, cells were arrested in the fraction with 4 N DNA content. By contrast, the expression of these two genes remains elevated in the absence of the cell cycle inhibitor, and p21waf1-/- cells re-replicate their DNA and become polyploid. In light of these results, we propose that p21waf1 simultaneously targets cdk and transcriptional regulators to prevent the expression of oncogenic pathways upon DNA damage.
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PMID:The cell cycle inhibitor p21waf1 binds to the myc and cdc25A promoters upon DNA damage and induces transcriptional repression. 1692 15

The activity of the tumor suppressor protein p53 is controlled by a balance between E3-ligase mediated p53 protein degradation and protein kinase-mediated assembly of p53:p300 transcription machinery. Genetic studies in mice have shown that mutation of the CK2 phospho-acceptor site in p53 increases UV-induced skin cancer formation,(11) highlighting an unexpected role for p53 phosphorylation in mediating p53-dependent tumor suppression. However, it is not known in which cell types CK2-mediated phosphorylation of p53 occurs. Using human skin as a model to determine whether there is cell-selectivity in modulating p53 phosphorylation, we have found a selective induction of p53 phosphorylation at the CK2-site in the basal cells of UV irradiated human skin. Dual-immunofluorescence also revealed that Ser392 and Ser15 phosphorylation of p53 also occur in the same basal cells, although often within distinct regions of the nucleus. Given that p63alphaDeltaN is required for p53 activation after DNA damage, we examined and found a high proportion of cells co-express p63alphaDeltaN and CK2-phosphorylated p53 after UV-irradiation. As controls, the proliferation marker Ki67 and p63alphaDeltaN generally exhibit mutually exclusive expression. These data identify a physiological model with which to identify signaling pathways that mediate cross-talk between p63alphaDeltaN and activating p53 kinase pathways after DNA damage in basal cell populations.
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PMID:CK2-site phosphorylation of p53 is induced in DeltaNp63 expressing basal stem cells in UVB irradiated human skin. 1710 55

The hepatitis B virus infects more than 350 million people worldwide and is a leading cause of liver cancer. The virus encodes a multifunctional regulator, the hepatitis B virus X protein (HBx), that is essential for virus replication. HBx is involved in modulating signal transduction pathways and transcription mediated by various factors, notably CREB that requires the recruitment of the co-activators CREB-binding protein (CBP)/p300. Here we investigated the role of HBx and its potential interaction with CBP/p300 in regulating CREB transcriptional activity. We show that HBx and CBP/p300 synergistically enhanced CREB activity and that CREB phosphorylation by protein kinase A was a prerequisite for the cooperative action of HBx and CBP/p300. We further show that HBx interacted directly with CBP/p300 in vitro and in vivo. Using chromatin immunoprecipitation, we provide evidence that HBx physically occupied the CREB-binding domain of CREB-responsive promoters of endogenous cellular genes such as interleukin 8 and proliferating cell nuclear antigen. Moreover expression of HBx increased the recruitment of p300 to the interleukin 8 and proliferating cell nuclear antigen promoters in cells, and this is associated with increased gene expression. As recruitment of CBP/p300 is known to represent the limiting event for activating CREB target genes, HBx may disrupt this cellular regulation, thus predisposing cells to transformation.
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PMID:The hepatitis B virus X protein functionally interacts with CREB-binding protein/p300 in the regulation of CREB-mediated transcription. 3211 23

More than fifteen years following the description of Tat as a critical HIV gene expression regulatory protein, additional roles for Tat in HIV replication have been described, including reverse transcription. Tat achieves function through direct interaction with viral proteins, including reverse transcriptase, and numerous cellular proteins including cyclin T1, RNA polymerase II, protein kinase R (PKR), p300/CBP, and P/CAF. Despite our advanced knowledge of how Tat operates, this has not yet resulted in the discovery of effective agents capable of targeting various Tat functions. Nevertheless, Tat remains an attractive, virus-specific molecule and detailed understanding of specific protein interaction holds promise for future drug discovery.
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PMID:Will diverse Tat interactions lead to novel antiretroviral drug targets? 1716 34

Cyclic AMP responsive element (CRE) binding protein (CREB) is known to activate transcription when its Ser133 is phosphorylated. However, transducer of regulated CREB activity (TORC), a CREB specific co-activator, upregulates CREB activity in a phospho-Ser133-independent manner. Interestingly, TORC is also regulated by phosphorylation; the phospho-form is inactive, and the dephospho-form active. When PKA phosphorylates CREB, it inhibits TORC kinases simultaneously and accelerates dephosphorylation of TORC. We show in this report that staurosporine, a kinase inhibitor, induces the expression of the StAR gene in Y1 adrenocortical cells, possibly a result of an increase in the population of dephospho-TORC. The expression of the StAR gene is known to be regulated by SF-1 and CREB, and the co-activators CBP/p300 may mediate the actions of both factors. Our experiments using KG501, a disruptor of the interaction between phospho-CREB and CBP/p300, also support the importance of TORC in the regulation of StAR gene expression.
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PMID:Dephosphorylation of TORC initiates expression of the StAR gene. 1721 Feb 23

Transforming growth factor-beta (TGF-beta) family members are multifunctional growth factors involved in regulating diverse biological processes. Despite the critical role for TGF-beta in regulating cell proliferation, differentiation, migration and development, its role in regulating NF-kappaB-dependent inflammatory response still remains unclear. Here, we show that TGF-beta1 induces acetylation of NF-kappaB p65 subunit to synergistically enhance bacterium nontypeable Haemophilus influenzae-induced NF-kappaB activation and inflammatory response in vitro and in vivo. The TGF-beta1-induced acetylation of p65 is mediated via a Smad3/4-PKA-p300-dependent signaling pathway. Acetylation of p65 at lysine 221 by TGF-beta1 is critical for synergistic enhancement of bacteria-induced DNA-binding activity, NF-kappaB activation, NF-kappaB-dependent transcription of TNF-alpha and IL-1beta and interstitial polymorphonuclear neutrophil infiltration in vitro and in vivo. These studies provide new insights into the novel regulation of NF-kappaB by TGF-beta signaling.
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PMID:TGF-beta induces p65 acetylation to enhance bacteria-induced NF-kappaB activation. 1726 54

Tumor necrosis factor-alpha (TNF-alpha) is a potent mediator of inflammation, inducing expression of a gene network mediated by NF-kappaB. Previously we found that TNF-alpha-induced reactive oxygen species (ROS) production is required for NF-kappaB action because antioxidants inhibited TNF-alpha-inducible IL-8 expression without affecting its nuclear translocation. Here, we further investigated this ROS pathway controlling NF-kappaB/RelA dependent gene expression. We observed that TNF-alpha enhanced ROS production approximately 2-fold 20 min after stimulation and significantly increased oxidative DNA damage (8-oxoguanine lesions) over controls. Treatment with chemically unrelated antioxidants specifically inhibited expression of TNF-inducible NF-kappaB-dependent genes without producing detectable cytotoxicity or affecting GAPDH expression. We found that TNF-alpha-induced NF-kappaB/RelA Ser(276) phosphorylation, a modification critical for its transcriptional activity, was inhibited by abrogation of the ROS signaling pathway, whereas NF-kappaB/RelA Ser(536) phosphorylation was not. Interestingly, antioxidant treatment selectively inhibited TNF-alpha-induced catalytic activity of cAMP dependent protein kinase A (PKAc) but not mitogen-stress related kinase-1 (MSK1), kinases known to phosphorylate RelA at Ser(276). Using PKAc inhibitors and siRNA mediated PKAc knockdown, TNF-alpha-induced Ser(276) phosphorylation and IL-8 expression were both significantly reduced, indicating PKAc is required for RelA Ser(276) phosphorylation. Consistently, a site mutation of Rel A (Ser(276) to Ala) in RelA-deficient embryonic fibroblasts failed to activate IL-8 Luciferase activity in response to TNF-alpha. Furthermore, TNF-alpha-inducible NF-kappaB/RelA interaction with the co-activator CBP/p300, essential for enhanceosome formation, was attenuated by antioxidant treatment. Using chromatin immunoprecipitation assay (ChIP), we observed that recruitment of p300 and RNA polymerase II (Pol II) to the IL-8 promoter was also abrogated by antioxidant. These results indicate that the ROS-mediated TNF-alpha-induced IL-8 transcription is regulated by NF-kappaB/RelA phosphorylation at the critical Ser(276) residue by PKAc, resulting in stable enhanceosome formation on target genes. These studies provide insight into a novel antioxidant-sensitive pathway that can be targeted to inhibit NF-kappaB-mediated inflammation.
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PMID:TNF-alpha-induced NF-kappaB/RelA Ser(276) phosphorylation and enhanceosome formation is mediated by an ROS-dependent PKAc pathway. 1731 4

MAF, one of a family of large Maf bZIP transcription factors, is mutated in human developmental ocular disorders that include congenital cataract, microcornea, coloboma and anterior segment dysgenesis. Expressed early in the developing lens vesicle, it is central to regulation of lens crystallin gene expression. We report a semi-dominant mouse c-Maf mutation recovered after ENU mutatgenesis which results in the substitution, D90V, at a highly conserved residue within the N-terminal 35 amino-acid minimal transactivation domain (MTD). Unlike null and loss-of-function c-Maf mutations, which cause severe runting and renal abnormalities, the phenotype caused by the D90V mutation is isolated cataract. In reporter assays, D90V results in increased promoter activation, a situation similar to MTD mutations of NRL that also cause human disease. In contrast to wild-type protein, the c-Maf D90V mutant protein is not inhibited by protein kinase A-dependent pathways. The MTD of large Maf proteins has been shown to interact with the transcriptional co-activator p300 and we demonstrate that c-Maf D90V enhances p300 recruitment in a cell-type dependent manner. We observed the same for the pathogenic human NRL MTD mutation S50T, which suggests a common mechanism of action.
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PMID:A heterozygous c-Maf transactivation domain mutation causes congenital cataract and enhances target gene activation. 1737 26

p53 is an important regulator of cell growth and apoptosis and its activity is regulated by phosphorylation. Accordingly, in neonatal rat cardiomyocytes we examined the involvement of p53 in H(2)O(2)-induced apoptosis. Treatment with 50-100 microM H(2)O(2) markedly induced apoptosis in cardiomyocytes, as assessed by gel electrophoresis of genomic DNA. To examine whether H(2)O(2) increases p53 phosphorylation in cardiomyocytes, we utilized an antibody that specifically recognizes phosphorylated p53 at serine-15. The level of phosphorylated p53 was markedly increased by 100 microM H(2)O(2) at 30 and 60 min. Using specific protein kinase inhibitors we examined the involvement of protein kinases in p53 phosphorylation in response to H(2)O(2) treatment. However, staurosporine, a broad spectrum inhibitor of protein kinases, SB202190, a specific p38 kinase inhibitor, PD98059, a MAP kinase inhibitor, wortmannin, an inhibitor of DNA-PK and PI3 kinase, SP600125, a JNK inhibitor and caffeine,an inhibitor of ATM and ATR, failed to prevent the H(2)O(2)-induced phosphorylation of p53. cDNA microarray revealed that H(2)O(2) markedly increased expression of several p53 upstream modifiers such as the p300 coactivator protein and several downstream effectors such as gadd45, but decreased the expression of MDM2, a negative regulator of p53. Our results suggest that phosphorylation of p53 at serine-15 may be an important signaling event in the H(2)O(2)-mediated apoptotic process.
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PMID:Oxidative stress enhances phosphorylation of p53 in neonatal rat cardiomyocytes. 1745 21

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