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

Tamoxifen, a selective estrogen-receptor modulator, is effective in the treatment and prevention of breast cancer, but therapeutic resistance is common. Pure steroidal antiestrogens are efficacious in tamoxifen-resistant disease and, unlike tamoxifen, arrest cells in a state of quiescence from which they cannot reenter the cell cycle after growth factor stimulation. We now show that in hydroxytamoxifen-treated cells, transduction of the cell cycle inhibitor p27(Kip1) induces quiescence and insensitivity to growth stimulation by insulin/insulin-like growth factor I and epidermal growth factor/transforming growth factor alpha. Furthermore, reinitiation of cell cycle progression by insulin/insulin-like growth factor I in hydroxytamoxifen-arrested cells involves dissociation of the corepressors nuclear receptor corepressor (N-CoR) and silencing mediator for retinoid and thyroid hormone receptor (SMRT) from nuclear estrogen receptor alpha and redistribution to the cytoplasm, a process that is inhibited by mitogen-activated protein/extracellular signal-regulated kinase, but not phosphatidylinositol 3'-kinase, inhibitors. These data suggest that agents that up-regulate p27(Kip1) or inhibit growth factor signaling via the extracellular signal-regulated kinases should be tested as therapeutic strategies in tamoxifen-resistant breast cancer.
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PMID:p27(Kip1) induces quiescence and growth factor insensitivity in tamoxifen-treated breast cancer cells. 1290 98

Lymphangioleiomyomatosis (LAM) is a progressive lung disease affecting almost exclusively women. The reasons for this strong gender predisposition are poorly understood. Renal angiomyolipomas occur in 50-60% of sporadic LAM patients. The smooth muscle cells of pulmonary LAM and renal angiomyolipomas are nearly indistinguishable morphologically. Here, we report the first successful cell culture of a LAM-associated renal angiomyolipoma. The cells carried inactivating mutations in both alleles of the TSC2 gene and expressed estrogen receptor , estrogen receptor , and androgen receptor. To elucidate the cellular pathways through which steroid hormones influence LAM pathogenesis, we treated the cells with both estradiol and tamoxifen. Cell growth was stimulated by estradiol, associated with phosphorylation of p44/42 MAPK at 5 min and an increase in c-myc expression at 4 h. Tamoxifen citrate also stimulated cell growth, associated with increased phosphorylation of p44/42 MAPK and expression of c-myc, indicating that tamoxifen has agonist effects on angiomyolipoma cells. This response to tamoxifen in human angiomyolipoma cells differs from prior studies of Eker rat leiomyoma cells, possibly reflecting cell type or species differences in cells lacking tuberin. Our data provide the first evidence that estradiol stimulates the growth of angiomyolipoma cells, that tamoxifen has agonist effects in angiomyolipoma cells, and that estradiol and tamoxifen impact both genomic and nongenomic signaling pathways in angiomyolipoma cells. The responsiveness of angiomyolipoma cells to estradiol may be related to the underlying reasons that LAM affects primarily women.
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PMID:Estradiol and tamoxifen stimulate LAM-associated angiomyolipoma cell growth and activate both genomic and nongenomic signaling pathways. 1500 33

The contribution of the mitogen-activated protein kinase (MAPK) pathway to the relaxation induced by tamoxifen, a synthetic non-steroidal anti-estrogen, was examined in rat vascular smooth muscle. Tamoxifen (0.1-300 microM) inhibited the contraction induced by endothelin-1 (ET-1, 3 nM) in aortic smooth muscle in a concentration-dependent manner. The inhibitory effect of tamoxifen was not attenuated by 10 microM ICI 182,780, a selective antagonist of estrogen receptors. In the Ca(2+) channel inhibitor verapamil (1 microM)-pretreated strips, tamoxifen also inhibited the contraction induced by ET-1. Both PD098059 and SB203580, inhibitors of MAPK/extracellular signal-regulated kinase (ERK) kinase and p38 MAPK, respectively, inhibited ET-1-induced contraction in aortic smooth muscle. In Western blot analysis with anti-phosphorylated MAPK antibodies, ET-1 (3 nM) enhanced activities of both ERK1/2 and p38 MAPK in aortic muscle strips, which were not attenuated by the treatment with 4 mM EGTA. Tamoxifen (100 microM) inhibited the activities of ERK1/2 and p38 MAPK induced by ET-1 without significant changes in the expression of these kinases. These results suggest that tamoxifen induces relaxation of rat vascular smooth muscle, and that this is, at least in part, mediated by the inhibition of the Ca(2+)-independent MAPK pathway.
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PMID:Tamoxifen induces vasorelaxation via inhibition of mitogen-activated protein kinase in rat aortic smooth muscle. 1466 41

Estrogens affect the functioning of several non-reproductive tissues, the immune system in particular. In mammalian immunocytes, 17beta-estradiol (E2) has both dose- and cell-type specific effects and the responses to E2 seem to be mediated by rapid, non-genomic mechanisms; these may be initiated at either membrane or cytosolic locations, and can result in both direct local effects, such as modification of ion fluxes, and regulation of gene transcription secondary to activation of different kinase cascades, including mitogen activated protein kinases (MAPKs). In this work, the short-term effects of E(2) and the possible mechanisms of estrogen-mediated cell signaling were investigated in the hemocytes, the immune cells of the bivalve mollusc, the mussel Mytilus galloprovincialis Lam. The results show that E2 (25nM) caused a rapid and significant increase in hemocyte cytosolic [Ca2+]; lower concentrations (5 nM) showed a smaller, not significant effect. Both E2 concentrations affected the phosphorylation state of the components of tyrosine kinase-mediated signal transduction MAPK- and STAT- (signal transducers and activators of transcription) like proteins within 5-15 min from E2 addition. A greater effect and clearer time course were observed with 25 nM E2: in particular, E2 induced a transient increase in p-ERK2 MAPK and a persistent increase in p-p38 MAPK. Moreover, both STAT3 and STAT5 were tyrosine phosphorylated in response to E2. E2 (5 nM) induced both morphological (as evaluated by SEM) and functional changes (such as extracellular release of hydrolytic enzymes, lysosomal membrane destabilisation, and stimulation of the bactericidal activity) within 10-30 min from addition. Lysosomal membrane destabilisation induced by both E2 concentrations was abolished by hemocyte preincubation with the p38 MAPK inhibitor SB203580, and significantly reduced by PD98059 and Wortmannin (inhibitors of ERK MAPK and PI3-K, respectively), this suggesting that rapid activation of kinase cascades is involved in mediating the effects of E2 in mussel hemocytes. The antiestrogen Tamoxifen prevented or strongly reduced most, but not all, the effects of E2. Western blotting with heterologous anti-ERalpha-anti-ERbeta-antibodies revealed the presence of immunoreactive ERalpha- and ERbeta-like proteins in hemocyte protein extracts. Overall, our data support the hypothesis that the rapid effects and mechanisms of action of 17beta-estradiol are extremely conserved and that they may play a crucial role in endocrine-immune interactions in invertebrates.
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PMID:Rapid effects of 17beta-estradiol on cell signaling and function of Mytilus hemocytes. 1498 Jul 97

Estrogens are well known to exert antiinflammatory effects outside the central nervous system (CNS). They have also been shown to exert neuroprotective effects in the CNS after several types of injury, including neurodegeneration. However, the molecular mechanisms by which these effects occur remain unclear. Because microglial hyperactivation and their production of neurotoxins is associated with many types of brain injury for which estrogens are beneficial, we sought to investigate the ability of estrogen to modulate microglial function. Furthermore, because little is known regarding the role of each of the two known estrogen receptors (ERs) in microglia, our studies were designed to test the hypothesis that 17beta-estradiol (E(2)) exerts antiinflammatory effects in microglia, specifically via interactions with ERbeta. We tested this hypothesis using the murine microglial cell line BV-2, which naturally expresses only ERbeta. Our results indicate that not only does E(2) decrease lipopolysaccharide (LPS)-stimulated nitric oxide (NO) production and inducible nitric oxide synthase (iNOS) expression, it also reduces the expression of cyclooxygenase-2, a target for estrogen that has not previously been reported for ERbeta. We also observed that LPS-stimulated TNFalpha mRNA was increased by estrogen. E(2) exerts these effects within 30 min compared with typical estrogen transcriptional responses. Tamoxifen and ICI 182,780 differentially blocked the inhibitory effects of E(2) on LPS-stimulated iNOS and cyclooxygenase-2. In addition, we show that E(2) alters LPS-stimulated MAPK pathway activation, supporting the idea that alterations in the MAPKs may be a potential mechanism by which ERbeta mediates decreased microglial activation.
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PMID:Estrogen modulates microglial inflammatory mediator production via interactions with estrogen receptor beta. 1525 95

Tamoxifen causes apoptosis of malignant glial cells at a concentration that does not kill normal astrocytes. C6 glioma cells were stably transfected with a vector expressing Bcl-2 under the control of metallothionin promoter. Low leaky Bcl-2 expression offered complete protection against tamoxifen-induced apoptosis. High Bcl-2 levels, on the other hand, accelerated the apoptosis, with Bcl-2-overexpressing clones dying within 48 h of tamoxifen treatment as compared to 6 days for parental C6 cells. Overexpressed Bcl-2 is localized primarily in mitochondria and to a much lower extent in endoplasmic reticulum (ER). Only a minor fraction of the overexpressed Bcl-2 gets phosphorylated in tamoxifen-treated cells and the phosphorylation does not affect its binding to Bax. Tamoxifen treatment of Bcl-2-overexpressing clones was found to result in activation of c-Jun N-terminal kinase (JNK) and p38 kinase. Inhibition of JNK but not p38 kinase completely abrogated the accelerated apoptosis. Constitutively expressed endogenous c-Jun was found to be phosphorylated, resulting in increased activator protein 1 (AP-1) DNA-binding activity. Expression of Fas ligand (FasL), an AP-1 transcriptional target, increased during accelerated cell death. This presumably brought about activation of caspase 8, as inhibition of caspase 8 blocked the apoptosis. The JNK/c-Jun/AP-1/FasL pathway could be considered as a potential target for the therapy of gliomas.
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PMID:Activated JNK brings about accelerated apoptosis of Bcl-2-overexpressing C6 glioma cells on treatment with tamoxifen. 1560 91

The antiestrogen tamoxifen has been widely used for decades as selective estrogen receptor (ER) modulator for ERalpha-positive breast tumors. Tamoxifen significantly reduces tumor recurrence by binding to the activation function-2 (AF-2) domain of the ER. Acquired resistance to tamoxifen in breast cancer patients is a serious therapeutic problem. Antiestrogen-resistant breast cancer often shows increased expression of the epidermal growth factor receptor (EGFR) family members, EGFR and ErbB2. In this report we now show that overexpression of EGFR or activated AKT-2 in MCF-7 cells leads to phosphorylation of Ser167 in the AF-1 domain of ERalpha, enhanced ER-amplified in breast cancer 1 (ER:AIB1) interaction in the presence of tamoxifen, and resistance to tamoxifen. In contrast, transfection of activated MAPK kinase, an immediate upstream activator of MAPK (ERK 1 and 2) into MCF-7 cells leads to phosphorylation of Ser118 in the AF-1 domain of ERalpha, inhibition of ER-amplified in breast cancer 1 (ER:AIB1) interaction in the presence of Tam, and maintenance of sensitivity to tamoxifen. Inhibition of AKT by short inhibitory RNA blocked Ser167 phosphorylation in ER and restored tamoxifen sensitivity. However, maximum sensitivity to tamoxifen was observed when both AKT and MAPK were inhibited. Taken together, these data demonstrate that different phosphorylation sites in the AF-1 domain of ERalpha regulate the agonistic and antagonistic actions of tamoxifen in human breast cancer cells.
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PMID:Activation function-1 domain of estrogen receptor regulates the agonistic and antagonistic actions of tamoxifen. 1839 55

The therapeutic benefit of tamoxifen in patients with hormone-dependent breast cancer is limited by acquired resistance to this drug. To investigate the biological alterations responsible for tamoxifen resistance, an in vitro model was established. After 6-month continuous exposure to tamoxifen (10(-7) mol/L), growth of MCF-7 breast cancer cells was no longer inhibited by this antiestrogen. Although there was no significant increase in the basal levels of activated mitogen-activated protein kinase (MAPK), tamoxifen-resistant (TAM-R) cells exhibited enhanced sensitivity to epidermal growth factor (EGF) and estradiol stimulated activation of MAPK. Tamoxifen elicited rapid phosphorylation of MAPK, in contrast to its antagonistic activity in control cells. Blockade of the EGF receptor (EGFR)/MAPK pathway caused more dramatic inhibition of growth of TAM-R cells than the control cells. An increased amount of estrogen receptor alpha (ERalpha) was coimmunoprecipitated with EGFR from TAM-R cells although the total levels of these receptors were not increased. Notably, ERalpha seemed to redistribute to extranuclear sites in TAM-R cells. Increased ERalpha immunoreactivity in the cytoplasm and plasma membrane of TAM-R cells was shown by fluorescent microscopy and by Western analysis of isolated cellular fractions. In TAM-R cells, an increased amount of c-Src was coprecipitated with EGFR or ERalpha. Blockade of c-Src activity resulted in redistribution of ERalpha back to the nucleus and in reduction of its interaction with EGFR. Prolonged blockade of c-Src activity restored sensitivity of TAM-R cells to tamoxifen. Our results suggest that enhanced nongenomic function of ERalpha via cooperation with the EGFR pathway is one of the mechanisms responsible for acquired tamoxifen resistance.
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PMID:Long-term treatment with tamoxifen facilitates translocation of estrogen receptor alpha out of the nucleus and enhances its interaction with EGFR in MCF-7 breast cancer cells. 1728 73

Tamoxifen (TAM) is a synthetic non-steroidal anti-estrogen compound that is widely used as an effective chemotherapeutic agent for treatment and prevention of breast cancer. Unfortunately, prolonged treatment with TAM causes TAM-responsive tumors to become TAM resistant through an as-yet-unknown mechanism. To develop novel anti-breast cancer agents that are therapeutically superior to TAM, we must first fully understand the biological effects of TAM. In this study, we found that TAM treatment of MDA-MB-361 breast cancer cells activated p21Waf1/Cip1 gene transcription independently of p53. Furthermore, TAM-induced p21Waf1/Cip1 promoter activity was enhanced by transient expression of the gene encoding Early Growth Response-1 (Egr-1) protein, a transcription factor that plays an important role in cell growth and differentiation. The TAM-induced p21Waf1/Cip1 promoter activity was blocked by the expression of small interfering RNA (siRNA) targeted to Egr-1 mRNA. In addition, induction of Egr-1 expression by TAM occurred at the transcriptional level via Ets-domain transcription factor Elk-1 through the JNK and p38 mitogen-activated protein (MAP) kinase pathways. Inhibition of the JNK and p38 MAP kinase signals inhibited Egr-1-mediated p21Waf1/Cip1 promoter activity. We conclude that TAM stimulation of p21Waf1/Cip1 gene transcription in MDA-MB-361 cells depends largely on Elk-1-mediated Egr-1 expression induced by activation of the JNK and p38 MAP kinase pathways.
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PMID:Tamoxifen-induced activation of p21Waf1/Cip1 gene transcription is mediated by Early Growth Response-1 protein through the JNK and p38 MAP kinase/Elk-1 cascades in MDA-MB-361 breast carcinoma cells. 1730 34

Estrogen receptor (ER) plays an important role in various physiological functions. We examined whether ERalpha and ERbeta are expressed in squamous cell carcinoma (SCC), and whether ER is a potential target for antitumor therapy. High-level expression of ERbeta, but not ERalpha, was observed in tumor cells of human primary SCC tissues and various SCC cultured cell lines. Treatment with ER antagonist (tamoxifen), but not agonist (estradiol), caused apoptotic cell death of SCC cells in a concentration- and time-dependent manner. Adhesion of SCC was inhibited by the treatment with tamoxifen, but not with estradiol. Tamoxifen reduced the phosphorylation of focal adhesion kinase (FAK), resulting in decreases in phosphorylation of extracellular signal-related kinase (Erk) and mitogen-activated protein kinase. Inhibition of FAK phosphorylation is accompanied by disorder of the cytoskeletal component actin. The cell death caused by tamoxifen is therefore the result of direct interference in cell adhesion, which is called 'anoikis', involving a decrease in intracellular FAK signaling. Expression of epidermal growth factor receptor was also inhibited by treatment with a high concentration of tamoxifen. Knockdown of ERbeta by small interfering RNA inhibited the proliferation of SCC. In addition, tamoxifen strongly inhibited invasion of SCC. These results imply a potentially important role for ER, whose inhibition may be effective for the treatment of SCC and the prevention of invasion and metastasis.
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PMID:Critical role of estrogen receptor on anoikis and invasion of squamous cell carcinoma. 1735 62


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