EC:2.7.11.24 - FACTA Search

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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

HDAC1, a member of the histone deacetylase family, is involved in transcription regulation through the modification of chromatin structure. Several studies also implicated HDAC1 in tumorigenesis. Much attention has been concentrated on protein-protein interactions involving HDAC1 and the possibility that posttranslational modifications may occur in mammalian HDAC1 proteins has not been carefully and systematically investigated. In this study, we utilized in vivo labeling assays to demonstrate that both human and murine HDAC1 proteins are phosphorylated in cells. Assays using HDAC1 deletion mutants indicated that phosphorylation occurs in its C-terminal domain. cAMP-dependent kinase and casein kinase II, but not protein kinase C, cdc2, or MAP kinase, could phosphorylate HDAC1 in vitro, although HDAC1 contains several protein kinase C consensus sites. We also found that phosphorylation did not influence HDAC1 enzymatic activity using a human histone H4 N-terminal peptide as the substrate. Interestingly, HDAC1-FLAG fusion protein immunoprecipitated from transfected cells was found to be in association with a kinase activity, providing an in vitro assay for further studies of this posttranslational modification.
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PMID:Mammalian histone deacetylase 1 protein is posttranslationally modified by phosphorylation. 1132 22

Histone deacetylase 1 (HDAC1) is a major regulator of chromatin structure and gene expression. Tight control of HDAC1 expression is essential for normal cell cycle progression of mammalian cells. HDAC1 mRNA levels are regulated by growth factors and by changes in intracellular deacetylase activity levels. Stimulation of the mitogen-activated protein kinase cascade by anisomycin or growth factors, together with inhibition of deacetylases by trichostatin A (TSA), leads to stable histone H3 phosphoacetylation and strongly induced HDAC1 expression. In contrast, activation of the nucleosomal response by anisomycin alone results only in transient phosphoacetylation of histone H3 without affecting HDAC1 mRNA levels. The transcriptional induction of the HDAC1 gene by anisomycin and TSA is efficiently blocked by H89, an inhibitor of the nucleosomal response. Detailed studies of the kinetics of histone acetylation and phosphorylation show that the two modifications are synergistic and essential for induced HDAC1 transcription. Activation of the HDAC1 gene by anisomycin together with TSA or by growth factors is accompanied by phosphoacetylation of HDAC1 promoter-associated histone H3. Our results present evidence for a precise regulatory mechanism which allows induction of the HDAC1 gene in response to proliferation signals and modulation of HDAC1 expression dependent on intracellular deacetylase levels.
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PMID:Activation of the mouse histone deacetylase 1 gene by cooperative histone phosphorylation and acetylation. 1239 Nov 51

RECK is a membrane-anchored glycoprotein that may negatively regulate matrix metalloproteinase (MMP) activity and inhibit tumor metastasis. Previous study demonstrated that oncogenic ras inhibited RECK expression via an Sp1 binding site in the RECK promoter. In this study, we investigated the molecular mechanism by which ras inhibited RECK expression. Co-transfection assay showed that Sp1 and Sp3 are transactivators, rather than repressors, for RECK gene. So, we tested whether ras activation induced the binding of histone deacetylases (HDACs) to Sp1 to repress RECK expression. Our data showed Sp1-associated HDAC1 in cells was increased after ras induction. By using DNA affinity precipitation assay, we found that induction of oncogenic ras enhanced the binding of HDAC1 to the DNA probe corresponding to the Sp1 site in the RECK promoter. Additionally, a HDAC inhibitor trichostatin A (TSA) potently antagonized the inhibitory action of ras on RECK. The signaling pathway by which ras suppresses RECK was also addressed. Induction of oncogenic ras activated extracellular signal-regulated kinase (ERK), but not c-Jun N-terminal kinase (JNK) and p38(HOG) kinase in 2-12 cells. Addition of PD98059 or overexpression of dominant-negative mutant of ERK2 indeed reversed ras-mediated inhibition of RECK promoter activity. Taken together, our results suggest that oncogenic ras represses RECK expression via a histone deacetylation mechanism.
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PMID:Involvement of histone deacetylation in ras-induced down-regulation of the metastasis suppressor RECK. 1509 8

Stratified squamous epithelial cells undergo an orderly process of cell cycle arrest following detachment from the basement membrane. The basal layer cells which adhere to the basement membrane express telomerase, which maintains the ends of chromosomes in this rapidly dividing population. Non-dividing suprabasal cells downregulate telomerase activity. However, the mechanisms regulating this inhibition are unknown. We examined the regulation of telomerase expression in anchorage-deprived normal human epidermal keratinocytes and squamous cell carcinoma lines. Anchorage-deprived cells underwent rapid loss of telomerase activity. Attachment loss was associated with increased ERK1 activity, G1 to S phase progression, and subsequent G2 arrest. Adhesion to collagen via specific integrin subunits inhibited ERK1 activity and telomerase repression. Loss of telomerase expression was associated with recruitment of an Rb/HDAC1 repressor complex to the -98 E2F site of the hTERT promoter. We propose a mechanism by which anchorage deprivation inhibits telomerase activity in stratified squamous epithelial cells and squamous cell carcinoma lines.
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PMID:Mechanism of telomerase repression during terminal differentiation of normal epithelial cells and squamous carcinoma lines. 1607 37

Sodium butyrate (NaBu) has an inhibitory effect on histone deacetylases (HDACs). The mitogen-activated protein (MAP) kinases, such as extracellular signal-regulated kinase 1/2 (ERK1/2) and p38 MAP, kinase are known to be modulated during NaBu-induced apoptosis. In the present study, we showed that low concentrations of NaBu could induce apoptosis synergistically with the inhibition of p38 MAP kinase as proven by using specific p38 MAP kinase inhibitor and dominant negative p38 transfection in a ras-transformed rat liver epithelial cell line (WB-ras). There were no changes in HDAC1, suggesting that NaBu might be able to kill transformed cells bypassing the HDAC inhibitory effect. We further demonstrated that inhibition of p38 MAP kinase potentiated apoptotic cascades, including cleavage of poly(ADP-ribose) polymerase, caspase-3, and decrease in Bcl-2/Bax ratio even at a lower concentration of NaBu. Thus, p38 MAP kinase played inhibitory roles in NaBu-induced apoptosis, and simultaneous modulation of MAP kinases in NaBu treatment could increase the efficiency of the chemotherapeutic effect of NaBu.
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PMID:Augmentation of sodium butyrate-induced apoptosis by p38 MAP kinase inhibition in rat liver epithelial cells. 1635 38

The acetylation of nuclear core histone has been suggested to work as an epigenetic mark for transmitting gene expression patterns to daughter cells. Global histone deacetylations, presumably involved in the reprogramming of the gene expression, have been observed after germinal vesicle breakdown (GVBD) in a cell cycle-dependent manner during meiotic maturation of mouse and porcine oocytes, although the regulation mechanism of histone deacetylation has not been studied well. In the present study, we examined the involvement of a crucial cell-cycle-regulator, maturation-promoting factor (MPF), and a meiosis-related kinase, mitogen-activated protein kinase (MAPK), in the global histone deacetylation during porcine oocyte maturation. In order to know whether the activities of MPF and MAPK were required, or the breakdown of GV membrane was sufficient, for the global histone deacetylation observed after GVBD, we artificially destroyed the GV membrane of the porcine immature oocytes. The artificial GV destruction (AGVD) induced histone deacetylation without the activation of MPF and MAPK. This deacetylation after AGVD was not affected by an MPF inhibitor, roscovitine, or an inhibitor of protein synthesis, cycloheximide, but was completely prevented by an inhibitor of histone deactylases (HDACs), trichostatine A. HDAC1 was present in the GV of the immature oocytes and localized on chromosomes after GVBD and AGVD. These results suggest that the MPF and MAPK activities were dispensable and the breakdown of the GV membrane was sufficient for the global histone deacetylation, which was catalyzed by HDAC activity.
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PMID:Activities of maturation-promoting factor (MPF) and mitogen-activated protein kinase (MAPK) are not required for the global histone deacetylation observed after germinal vesicle breakdown (GVBD) in porcine oocytes. 1651 87

Histone deacetylase (HDAC) inhibitors are appreciated as one of promising anticancer drugs, but they exert differential responses depending on the cell type. We recently reported the critical role of NF-kappaB as a modulator in determining cell fate for apoptosis in response to an HDAC inhibitor. In this study, we investigate a possible signaling pathway required for NF-kappaB activation in response to the HDAC inhibitor apicidin. Treatment of HeLa cells with apicidin leads to an increase in transcriptional activity of NF-kappaB and the expression of its target genes, IL-8 and TNF-alpha. TNF-alpha expression by apicidin is induced at earlier time points than NF-kappaB activation or IL-8 expression. In addition, our data show that the early expression of TNF-alpha does not lead to activation of NF-kappaB, because disruption of TNF-alpha activity by a neutralizing antibody does not affect nuclear translocation of NF-kappaB, IkappaBalpha degradation or reporter gene activation by apicidin. However, this activation of NF-kappaB requires the PI3K and PKC signaling pathways, but not ERK or JNK. Furthermore, apicidin activation of NF-kappaB seems to result from HDAC1 inhibition, as evidenced by the observation that overexpression of HDAC1, but not HDAC2, 3 or 4, dramatically inhibits NF-kappaB reporter gene activity. Collectively, our results suggest that activation of NF-kappaB signaling by apicidin requires both the PI3K/PKC signaling pathways and HDAC1, and functions as a critical modulator in determining the cellular effect of apicidin.
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PMID:Involvement of HDAC1 and the PI3K/PKC signaling pathways in NF-kappaB activation by the HDAC inhibitor apicidin. 1687 Jan 49

Although arsenic is an infamous carcinogen, it has been effectively used to treat acute promyelocytic leukemia, and can induce cell cycle arrest or apoptosis in human solid tumors. Previously, we had demonstrated that opposing effects of ERK1/2 and JNK on p21 expression in response to arsenic trioxide (As(2)O(3)) are mediated through the Sp1 responsive elements of the p21 promoter in A431 cells. Presently, we demonstrate that Sp1, and c-Jun functionally cooperate to activate p21 promoter expression through Sp1 binding sites (-84/-64) by using DNA affinity binding, chromatin immunoprecipitation, and promoter assays. Surprisingly, As(2)O(3)-induced c-Jun(Ser63/73) phosphorylation can recruit TGIF/HDAC1 to the Sp1 binding sites and then suppress p21 promoter activation. We suggest that, after As(2)O(3 )treatment, the N-terminal domain of c-Jun phosphorylation by JNK recruits TGIF/HDAC1 to the Sp1 sites and then represses p21 expression. That is, TGIF is involved in As(2)O(3)-inhibited p21 expression, and then blocks the cell cycle arrest.
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PMID:Inhibitory role of TGIF in the As2O3-regulated p21 WAF1/CIP1 expression. 1821 Feb 15

Berberine (BBR) has been implicated in bone biology. Although BBR reduces osteoporosis by enhancing BMD and inhibiting osteoclast activity, the effects of BBR on osteoblasts during the process of osteogenesis have not been thoroughly studied. In osteoblastic cells, BBR enhanced the expression of osteogenic marker genes including osteopontin and osteocalcin and promoted the transcriptional activity of the key osteogenic transcription factor Runx2. In osteoblasts, BBR increased the binding of Runx2 to the promoter region of osteopontin. The recruitment of co-factors such as p300 and HDAC1 to the promoter regions of osteopontin and osteocalcin was regulated by BBR, resulting in an enhancement in the expression of those genes. Furthermore, BBR activated p38 mitogen-activated protein kinase (MAPK) and increased cyclooxygenase 2 (COX2) expression, which are key factors in osteoblast differentiation. Consistently, a p38 MAPK-specific inhibitor attenuated the effect of BBR on osteogenesis, whereas p38 MAPK overexpression augmented BBR-induced osteogenic gene expression. Moreover, BBR stimulated bone area formation in calvarial organ culture. Taken together, these findings indicate that BBR promotes osteoblast differentiation through activation of Runx2 by p38 MAPK. Therefore, BBR may be a potential therapeutic agent to treat bone-related disorders including osteoporosis.
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PMID:Berberine promotes osteoblast differentiation by Runx2 activation with p38 MAPK. 1841 Feb 24

An infamous poison, arsenic also has been used as a drug for nearly 2400 years; in recently years, arsenic has been effective in the treatment of acute promyelocytic leukemia. Increasing evidence suggests that opposite effects of arsenic trioxide (ATO) on tumors depend on its concentrations. For this reason, the mechanisms of action of the drug should be elucidated, and it should be used therapeutically only with extreme caution. Previously, we demonstrated the opposing effects of ERK1/2 and JNK on p21(WAF1/CIP1) (p21) expression in response to ATO in A431 cells. In addition, JNK phosphorylates c-Jun (Ser(63/73)) to recruit TGIF/HDAC1 to suppress p21 gene expression. Presently, we demonstrated that a high concentration of ATO sustains ERK1/2 phosphorylation, and increases c-Fos biosynthesis and stability, which enhances p21 gene expression. Using site-directed mutagenesis, a DNA affinity precipitation assay, and functional assays, we demonstrated that phosphorylation of the C-terminus of c-Fos (Thr(232), Thr(325), Thr(331), and Ser(374)) plays an important role in its binding to the p21 promoter, and in conjunction with N-terminus phosphorylation of c-Fos (Ser(70)) to transactivate p21 promoter expression. In conclusion, a high concentration of ATO can sustain ERK1/2 activation to enhance c-Fos expression, then dimerize with dephosphorylated c-Jun (Ser(63/73)) and recruit p300/CBP to the Sp1 sites (-84/-64) to activate p21 gene expression in A431 cells.
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PMID:Arsenic trioxide phosphorylates c-Fos to transactivate p21(WAF1/CIP1) expression. 1882 10

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