Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endogenous cardiotonic steroids (ECS) are putative ligands of the inhibitory binding site of the membrane sodium pump (Na+, K+-ATPase). There is growing evidence that cardiotonic steroids may promote the growth of cardiac and vascular myocytes, including evidence indicating growth stimulation at concentrations in the same range as circulating ECS concentrations. We investigated four parameters to determine whether ouabain, a proposed ECS, promotes growth of immortalized rat proximal tubule epithelial cells: cell count by hemocytometer; metabolic activity as reflected in the mitochondrial conversion of the tetrazolium salt, 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, to its formazan product (MA); DNA synthesis reflected as bromodeoxyuridine incorporation (DNA); and mitosis reflected as histone phosphorylation state detected using anti-phosphohistone 3 antibody (HP). Maximum stimulatory responses were observed at 1 nm ouabain (MA, 20.3% increase, p < 0.01; DNA, 28.4% increase, p < 0.001; HP, maximum response at 0.5 h, 50% increase, p < 0.001). We observed that growth stimulation was associated with stimulation of ERK1/2 phosphorylation (ERK-P), and both growth and ERK-P could be blocked by the MEK inhibitor (U0126, 100 nm). Western blot analysis revealed that the only alpha isoform of Na+, K+-ATPase that could be detected in these cultures was the highly ouabain-resistant alpha1 isoform. Measurement of ouabain inhibition of ion transport in these cultures using 86Rb+ uptake revealed the predominance of the expected ouabain-resistant isoform (IC50 = 24 microm) and an additional minor ( approximately 15%) ouabain-sensitive inhibition with IC50 approximately 30 pm. Similar bimodal transport inhibition curves were obtained in freshly dissected rat proximal tubules. These results indicate that renal epithelial cells may be a sensitive target of the ERK1/2-activating and growth-promoting effects of ouabain even in the presence of ouabain-resistant Na+, K+-ATPase.
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PMID:Ouabain is a potent promoter of growth and activator of ERK1/2 in ouabain-resistant rat renal epithelial cells. 1273 49

It is well established that steroid receptor function requires interaction with coactivators. However, the mechanisms through which steroid receptors elicit precise assembly of coactivator complexes and the way the steroid activation signal is transduced remain elusive. Using a T47D cell line stably integrated with a mouse mammary tumor virus-chloramphenicol acetyltransferase (MMTV-CAT) reporter, we demonstrate that specific steroid receptors exhibit preferential recruitment of SRC-1 family coactivators, which determines the subsequent recruitment of specific downstream coregulator molecules. Upon ligand treatment, progesterone receptor (PR) interacted preferentially with SRC-1, which recruited CBP and significantly enhanced acetylation at K5 of histone H4. In contrast, activated glucocorticoid receptor (GR) preferentially associated with SRC-2 (TIF-2/GRIP-1), which subsequently recruited pCAF and led to specific modification of histone H3, suggesting that specific coactivators recruit distinct histone acetyltransferases to modulate the transcription of steroid-responsive genes. Loss-of-function experiments further support the predicted roles of SRC-1 and SRC-2 in, respectively, PR- and GR-mediated transcription on the MMTV promoter. This study indicates that differential recruitment of coactivators by nuclear receptors determines the assembly of coactivator complexes on target promoters to mediate specific transcription signals.
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PMID:Progesterone and glucocorticoid receptors recruit distinct coactivator complexes and promote distinct patterns of local chromatin modification. 1274 80

Although many leukaemia-associated nuclear oncogenes are well characterized, little is known about the molecular details of how they alter gene expression. Here we examined transcription factor complexes and chromatin structure of the human c-FMS gene in normal and leukaemic cells. We demonstrate by in vivo footprinting and chromatin immunoprecipitation assays that this gene is bound by the transcription factor AML1 (RUNX1). In t(8;21) leukaemic cells expressing the aberrant fusion protein AML1-ETO, we demonstrate that this protein is part of a transcription factor complex binding to extended sequences of the c-FMS intronic regulatory region rather than the promoter. The AML1-ETO complex does not disrupt binding of other transcription factors, indicating that c-FMS is not irreversibly epigenetically silenced. However, AML1-ETO binding correlates with changes in the histone modification pattern and increased association of histone deacetylases. Our experiments provide for the first time a direct insight into the chromatin structure of an AML1-ETO-bound target gene.
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PMID:Epigenetic consequences of AML1-ETO action at the human c-FMS locus. 1277 94

The t(8;21)(q22;q22) translocation, occurring in 40% of patients with acute myeloid leukemia (AML) of the FAB-M2 subtype (AML with maturation), results in expression of the RUNX1-CBF2T1 [AML1-ETO (AE)] fusion oncogene. AML/ETO may contribute to leukemogenesis by interacting with nuclear corepressor complexes that include histone deacetylases, which mediate the repression of target genes. However, expression of AE is not sufficient to transform primary hematopoietic cells or cause disease in animals, suggesting that additional mutations are required. Activating mutations in receptor tyrosine kinases (RTK) are present in at least 30% of patients with AML. To test the hypothesis that activating RTK mutations cooperate with AE to cause leukemia, we transplanted retrovirally transduced murine bone marrow coexpressing TEL-PDGFRB and AE into lethally irradiated syngeneic mice. These mice (19/19, 100%) developed AML resembling M2-AML that was transplantable in secondary recipients. In contrast, control mice coexpressing with TEL-PDGFRB and a DNA-binding-mutant of AE developed a nontransplantable myeloproliferative disease identical to that induced by TEL-PDGFRB alone. We used this unique model of AML to test the efficacy of pharmacological inhibition of histone deacetylase activity by using trichostatin A and suberoylanilide hydroxamic acid alone or in combination with the tyrosine kinase inhibitor, imatinib mesylate. We found that although imatinib prolonged the survival of treated mice, histone deacetylase inhibitors provided no additional survival benefit. These data demonstrate that an activated RTK can cooperate with AE to cause AML in mice, and that this system can be used to evaluate novel therapeutic strategies.
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PMID:An activated receptor tyrosine kinase, TEL/PDGFbetaR, cooperates with AML1/ETO to induce acute myeloid leukemia in mice. 1288 86

The c-FMS gene encodes the macrophage colony-stimulating factor receptor (M-CSFR or CSF1-R), which is a tyrosine kinase growth factor receptor essential for macrophage development. We have previously characterized the chromatin features of the mouse gene; however, very little is known about chromatin structure and function of the human c-FMS locus. Here we present a side-by-side comparison of the chromatin structure, histone modification, transcription factor occupancy and cofactor recruitment of the human and the mouse c-FMS loci. We show that, similar to the mouse gene, the human c-FMS gene possesses a promoter and an intronic enhancer element (c-fms intronic regulatory element or FIRE). Both elements are evolutionarily conserved and specifically active in macrophages. However, we demonstrate by in vivo footprinting that both murine and human c-FMS cis-regulatory elements are recognised by an overlapping, but non-identical, set of transcription factors. Despite these differences, chromatin immunoprecipitation experiments show highly similar patterns of histone H3 modification and a similar distribution of chromatin modifying and remodelling activities at individual cis-regulatory elements and across the c-FMS locus. Our experiments support the hypothesis that the same regulatory principles operate at both genes via conserved cores of transcription factor binding sites.
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PMID:Differential transcription factor occupancy but evolutionarily conserved chromatin features at the human and mouse M-CSF (CSF-1) receptor loci. 1453 Apr 29

Stable transformation of rat embryo fibroblast (REF) cells with E1A and cHa-ras oncogenes leads to downmodulation of c-fos gene transcription. This repression is provided in part by the association of Elk-1 transcription factor with histone deacetylases mediated through effects of Ras on MAP-kinase cascades. Here, we focus on the primary effects of E1A and Ras displayed in transient transfection assay on the transactivating capability of Elk-1, which is a key transcription factor of c-fos gene regulation. Our data show that E1A is able to suppress serum- and Ras-induced stimulation of Gal-luc reporter activity by a full-length Gal-Elk1-428 fusion protein as well as the expression of c-fos promoter-driven luciferase constructs (fos-luc). The repression can be relieved by trichostatin A, a histone deacetylase (HDAC) inhibitor, implying the involvement of HDACs and an inactive chromatin structure formed due to underacetylation of nucleosomal histones. Thus, upon transient transfection of E1A and Ras oncogenes in REF52 cells or their stable expression in E1A+cHa-ras cells, E1A contributes to the formation of inactive chromatin structure through association with p300/CBP histone acetyltransferases at c-fos promoters, whereas Ras mediates its effect through constitutive activation of the MAP/ERK kinase cascade, thereby promoting the recruitment of HDAC1 to the Elk-1 transcription factor. As a result, downregulation of c-fos gene transcription revealed in established E1A+Ras transformants is unlikely to be a consequence of cell transformation itself, but follows from primary effects of E1A and Ras on chromatin remodeling factors.
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PMID:Transient expression of E1A and Ras oncogenes causes downregulation of c-fos gene transcription in nontransformed REF52 cells. 1457 29

Prolactin (PRL) involvement in the regulation of luteal steroidogenesis in pigs during the early luteal phase and pregnancy is well documented. The intracellular mechanism of PRL action in steroidogenic cells, however, is not fully recognized yet. In the current study, we have tested the hypothesis that protein kinase C (PKC) and tyrosine kinases (PTK) as well as serine-threonine (PP) and tyrosine phosphatases (PTP) are involved in PRL signaling in luteal cells originated from the early corpora lutea (CL) of cyclic sows. Luteal cells (50 000 cells/ml M199) were incubated for 8 h (37 degrees C) with PRL (200 ng) and low density lipoproteins (LDL) to stimulate P(4) production. In addition, treatments included: PKC inhibitors--staurosporine and chelerythrine chloride; tyrosine kinase inhibitors--genistein and tyrphostin; serine-threonine phosphatase inhibitors--okadaic acid, cantharidin (inhibitors of PP1/2A) and cypermethrin (inhibitor of PP2B); and tyrosine phosphatase inhibitor--sodium orthovanadate. Moreover, after incubation (37 degrees C) with PRL (200 ng) for 2, 5, 10 or 20 min, luteal cells were homogenized and cytosolic as well as membrane fractions have been obtained. This was followed by partial purification of the subcellular fractions by DEAE-cellulose chromatography and determination of PKC activity by measuring the transfer of (32)P from [gamma-(32)P]ATP to histone III-S. In unstimulated porcine luteal cells the major proportion of PKC activity was present in the cytosol. Incubation of luteal cells with PRL resulted in a rapid, time dependent increase in the amount of PKC activity in the membrane fraction and a decrease in the amount of PKC activity in the cytosol fraction. PKC activity in the membrane fraction was maximal after 5 min of exposure the cells to PRL. Inhibitors of PKC and PTK suppressed PRL and LDL-induced P(4) production by porcine luteal cells. It is of interest that stimulated P(4) production was also reduced by inhibitors of PTP and PP1/2A (okadaic acid, cantharidin). In contrast, cypermethrin did not affect P(4) production stimulated by PRL and LDL. The results of the current study support the hypothesis that PKC and tyrosine kinases are intracellular mediators of PRL action in porcine luteal cells during the first days of the estrous cycle. The involvement of protein phosphatases in transmission of the PRL signal in early luteal cells in pigs is also suggested.
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PMID:Luteotrophic action of prolactin during the early luteal phase in pigs: the involvement of protein kinases and phosphatases. 1466 68

The c-Jun NH(2)-terminal kinase (JNK) subgroup of mitogen-activated protein kinases has been implicated largely in stress responses, but an increasing body of evidence has suggested that JNK also plays a role in cell proliferation and survival. We examined the effect of JNK inhibition, using either SP600125 or specific antisense oligonucleotides, on cell proliferation and cell cycle progression. SP600125 was selective for JNK in vitro and in vivo versus other kinases tested including ERK, p38, cyclin-dependent protein kinase 1 (CDK1), and CDK2. SP600125 inhibited JNK activity and KB-3 cell proliferation with the same dose dependence, suggesting that inhibition of proliferation was a direct consequence of JNK inhibition. Inhibition of proliferation by SP600125 was associated with an increase in the G(2)-M and apoptotic fractions of cells but was not associated with p53 or p21 induction. Antisense oligonucleotides to JNK2 but not JNK1 caused highly significant inhibition of cell proliferation. Wild-type mouse fibroblasts responded similarly with proliferation inhibition and apoptosis induction, whereas c-jun(-/-) fibroblasts were refractory to the effects of SP600125, suggesting that JNK signaling to c-Jun is required for cell proliferation. Studies in synchronized KB-3 cells indicated that SP600125 delayed transit time through S and G(2)-M phases. Correspondingly, JNK activity increased in late S phase and peaked in late G(2) phase. During synchronous mitotic progression, cyclin B levels increased concomitant with phosphorylation of c-Jun, H1 histone, and Bcl-2. In the presence of SP600125, mitotic progression was prolonged, and c-Jun phosphorylation was inhibited, but neither H1 nor Bcl-2 phosphorylation was inhibited. However, the CDK inhibitor roscovitine inhibited mitotic Bcl-2 phosphorylation. These results indicate that JNK, and more specifically the JNK2 isoform, plays a key role in cell proliferation and cell cycle progression. In addition, conclusive evidence is presented that a kinase other than JNK, most likely CDK1 or a CDK1-regulated kinase, is responsible for mitotic Bcl-2 phosphorylation.
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PMID:Inhibition of cell proliferation and cell cycle progression by specific inhibition of basal JNK activity: evidence that mitotic Bcl-2 phosphorylation is JNK-independent. 1470 47

Recently, SUMO modification has been shown to impart repressive properties on several transcriptional regulatory proteins. Indeed, the ETS domain transcription factor Elk-1 is modified by SUMO, and this modification is reversed by ERK MAP kinase pathway activation. This causes a switch from a repressive to activated state. However, the mechanism(s) of SUMO-mediated transcriptional repression is unclear. Here, we have investigated how sumoylation of Elk-1 leads to transcriptional repression. We demonstrate that sumoylation of Elk-1 results in the recruitment of histone deacetylase activity to promoters. In particular, our data point to a key role for HDAC-2. This recruitment leads to decreased histone acetylation and hence transcriptional repression at Elk-1 target genes. Thus, our data demonstrate an important integration point for two protein-modifying pathways in the cell, the SUMO and deacetylation pathways, that combine to promote transcriptional repression.
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PMID:SUMO promotes HDAC-mediated transcriptional repression. 1499 29

The Brahma (Brm) complex of Drosophila melanogaster is a SWI/SNF-related chromatin remodeling complex required to correctly maintain proper states of gene expression through ATP-dependent effects on chromatin structure. The SWI/SNF complexes are comprised of 8-11 stable components, even though the SWI2/SNF2 (BRM, BRG1, hBRM) ATPase subunit alone is partially sufficient to carry out chromatin remodeling in vitro. The remaining subunits are required for stable complex assembly and/or proper promoter targeting in vivo. Our data reveals that SNR1 (SNF5-Related-1), a highly conserved subunit of the Brm complex, is required to restrict complex activity during the development of wing vein and intervein cells, illustrating a functional requirement for SNR1 in modifying whole complex activation functions. Specifically, we found that snr1 and brm exhibited opposite mutant phenotypes in the wing and differential misregulation of genes required for vein and intervein cell development, including rhomboid, decapentaplegic, thick veins, and blistered, suggesting possible regulatory targets for the Brm complex in vivo. Our genetic results suggest a novel mechanism for SWI/SNF-mediated gene repression that relies on the function of a 'core' subunit to block or shield BRM (SWI2/SNF2) activity in specific cells. The SNR1-mediated repression is dependent on cooperation with histone deacetylases (HDAC) and physical associations with NET, a localized vein repressor.
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PMID:The Drosophila Brahma (SWI/SNF) chromatin remodeling complex exhibits cell-type specific activation and repression functions. 1501 94


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