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:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Induction of the Myc-oestrogen receptor fusion protein (MycER) by 4-OH-tamoxifen (OHT) leads to the activation of Cyclin E/Cyclin-dependent kinase 2 (CycE/Cdk2) complexes followed by the induction of DNA synthesis. As CycE/Cdk2 activity is essential for G1/S transition, we have investigated the mechanism by which Myc can activiate CycE/Cdk2. Our results suggest that this activation may involve at least two Myc-dependent steps: the induction of cyclin E gene transcription followed by accumulation of cyclin E mRNA in a protein synthesis-independent manner and the inhibition of p27(Kip1) association with CycE/Cdk2 complexes containing newly synthesised CycE. As a consequence phosphorylation of CycE-bound Cdk2 by cyclin activating kinase (CAK) is accelerated. We propose a model in which the active newly synthesised CycE/Cdk2 complexes trigger a positive feed-back mechanism to activate preexisting complexes through phosphorylation-dependent p27(Kip1) release.
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PMID:Myc activation of cyclin E/Cdk2 kinase involves induction of cyclin E gene transcription and inhibition of p27(Kip1) binding to newly formed complexes. 918 52

Bailie et al. [In Vitro Cell Dev. Biol. (1992) 28A, 621-624] reported that primary cultures of rat hepatocytes possess low affinity binding sites for nerve growth factor (NGF). NGF treatment of primary cultures of rat hepatocytes with a maximally effective concentration of NGF (20 ng/ml, 0.8 nM) caused acute phasic activation of Raf-1 and p42(MAPkinase), and a smaller sustained activation of B-Raf. The transient increase in Raf-1 and p42(MAPkinase) activity returned to baseline within approximately 30 min. NGF treatment of hepatocytes did not induce expression of cyclin dependent kinase (cdk) inhibitor proteins, but instead stimulated cdk2 activity and increased [3H]thymidine incorporation into DNA. In contrast to hepatocytes, NGF treatment of PC12 pheochromocytoma cells caused large sustained activations of B-Raf and p42(MAPkinase), and a lower phasic activation of Raf-1. The sustained activations of B-Raf and p42(MAPkinase) were for more than 5 h. Treatment of PC12 cells with NGF increased p21(Cip1/WAF-1) expression, reduced cdk2 activity and inhibited DNA synthesis, the opposite to the effects of NGF treatment of hepatocytes. However when p42(MAPkinase) was chronically activated in hepatocytes, via infection with an inducible oestrogen receptor-Raf-1 fusion protein, expression of p21(Cip-1/WAF1) and p16(INK4a) cdk inhibitor proteins increased, cdk2 activity decreased, and DNA synthesis decreased. Equally, treatment of hepatocytes with 50 mM ethanol elevated the basal activity of p42(MAPkinase) and temporally extended the ability of NGF treatment to activate p42(MAPkinase). Ethanol and NGF co-treatment increased expression of p21(Cip-1/WAF1) and p16(INK4a) cdk inhibitor proteins and decreased hepatocyte DNA synthesis. These data demonstrate that NGF can cause either acute/phasic or sustained activation of the MAP kinase cascade in different cell types. Acute activation of the MAP kinase cascade correlated with increased DNA synthesis. In contrast, sustained activation of the MAP kinase cascade correlated with increased expression of cdk inhibitor proteins, a reduction in cdk activity, and an inhibition of DNA synthesis. These data suggest a general mechanism exists where acute activation of the MAP kinase cascade promotes G1 progression/S phase entry and that chronic activation of the MAP kinase cascade inhibits this process.
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PMID:The mitogen-activated protein (MAP) kinase cascade can either stimulate or inhibit DNA synthesis in primary cultures of rat hepatocytes depending upon whether its activation is acute/phasic or chronic. 949 19

In primary rat hepatocytes, prolonged activation of the p42/44 mitogen-activated protein kinase (MAPK) pathway is associated with a decrease in DNA synthesis and increased expression of the cyclin-dependent kinase inhibitor (CKI) proteins p21Cip-1/WAF1 and p16INK4a. To evaluate the relative importance of these CKIs in mediating this response, we determined the impact of prolonged MAPK activation on DNA synthesis in primary cultures of hepatocytes derived from mice embryonically deleted (null) for either p21Cip-1/WAF1 or p16INK4a. When MAPK was activated in wild-type mouse hepatocytes for 24 h, via infection with a construct to express an inducible oestrogen receptor-Raf-1 fusion protein (DeltaRaf:ER), the expression of p21Cip-1/WAF1 and p16INK4a CKI proteins increased, cyclin-dependent kinase 2 (cdk2) and cdk4 activities decreased, and DNA synthesis decreased. Inhibition of RhoA GTPase function increased the basal expression of p21Cip-1/WAF1 and p27Kip-1 but not p16INK4a, and enhanced the ability of MAPK signalling to decrease DNA synthesis. Ablation of the expression of CCAATT enhancer-binding protein alpha (C/EBPalpha), but not of the expression of C/EBPbeta, decreased the ability of MAPK signalling to induce p21Cip-1/WAF1. When MAPK was activated in p16INK4a-null hepatocytes for 24 h, the expression of p21Cip-1/WAF1 increased, cdk2 and cdk4 activities decreased and DNA synthesis decreased. In contrast with these findings, prolonged activation of the MAPK pathway in hepatocytes from p21Cip-1/WAF1-null mice enhanced cdk2 and cdk4 activities and caused a large increase in DNA synthesis, despite elevated expression of p16INK4a. Inhibition of RhoA GTPase activity in p21Cip-1/WAF1-null cells partly blunted both the basal levels of DNA synthesis and the ability of prolonged MAPK signalling to increase DNA synthesis. Expression of anti-sense p21Cip-1/WAF1 in either wild-type or p16INK4a-null hepatocytes decreased the ability of prolonged MAPK signalling to increase the expression of p21Cip-1/WAF1, and permitted MAPK signalling to increase both cdk2 and cdk4 activities and DNA synthesis. These results argue that the ability of prolonged MAPK signalling to inhibit DNA synthesis in hepatocytes requires the expression of p21Cip-1/WAF1, and that the increased expression of p16INK4a has a smaller role in the ability of this stimulus to mediate growth arrest. Our results also suggest that RhoA function can modulate DNA synthesis in primary hepatocytes via the expression of p21Cip-1/WAF1 and p27Kip-1.
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PMID:Prolonged activation of the mitogen-activated protein kinase pathway promotes DNA synthesis in primary hepatocytes from p21Cip-1/WAF1-null mice, but not in hepatocytes from p16INK4a-null mice. 984 65

We have investigated the interaction between the expression of p21(WAF1/CIP1/SDI1), a stoichiometric inhibitor of Cdk, and the transcriptional activity of the oestrogen receptor alpha (ER(alpha). Transient transfection experiments demonstrated that the expression of p21(WAF1/CIP1/SDI1) amplified the transcriptional activation by ER(alpha). A dominant negative mutant of Cdk2 also enhanced the ER(alpha) transcriptional activity, indicating that the underlying mechanism relies on the inhibition of Cdk2 activity and cell cycle arrest. In agreement with this conclusion, experiments with p21(WAF1/CIP1/SDI1) mutants demonstrated that the domain involved in the binding of p21(WAF1/CIP1/SDI1) to Cdks was indispensable for the modulation of ER(alpha) activity. In addition, we show that expression of p21(WAF1/CIP1/SDI1) alleviates the block on CBP function mediated by Cdk2 and in turn stimulates transcriptional activation by ER(alpha) in a CBP-histone acetyltransferase (HAT)-dependent manner. These results suggest a novel mechanism by which p21(WAF1/CIP1/SDI1) functions as an enhancer of ER(alpha) activity through the modulation of CBP function.
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PMID:Transcriptional activation by the oestrogen receptor alpha is modulated through inhibition of cyclin-dependent kinases. 1217 48

The molecular mechanism(s) behind the development of endocrine resistance in breast cancer remains controversial. Here, we compare the capability of oestrogen receptor (ER)-negative cells (MDA-231) versus ER-positive tamoxifen-sensitive cells (MCF-7) to handle DNA repair, transmit signals from damaged DNA, initiate cell death via apoptosis, and then to control transmitted signals from the cell cycle and to synthesize growth factors and receptors. Genes related to these events were studied by cDNA micro-array. Normal human breast cells (H2F) and human lymphoblastoid tumour cells (CEM) were used as controls. Of the 18 genes investigated, 10 genes showed differences in their expression between the cell types. The ER-negative cells showed higher expressions of BRCA1, BRCA2, cdc2, cyclin B1, cyclin D1, cyclin E, IGFBP-3, TGF-alpha, TGF beta 2 and a lower expression of TGF beta R1. No differences in the expressions of bax, bcl-2, p53, p21 and GADD45 were found between the two cell lines. We found that the ER-negative cells were characterized by: (1) a stimulated expression of growth factors and cell cycle regulation compounds, (2) improved DNA repair capacity, but (3) no change in DNA damage signals and apoptotic pathways. Improved DNA repair capacity of ER-negative cells would have a growth advantage over ER-positive tumours when receiving antitumour therapy.
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PMID:Genes related to growth regulation, DNA repair and apoptosis in an oestrogen receptor-negative (MDA-231) versus an oestrogen receptor-positive (MCF-7) breast tumour cell line. 1519 11

Phosphorylation of the Ser(118) residue in the N-terminal A/B domain of the human oestrogen receptor alpha (hERalpha) by mitogen-activated protein kinase (MAPK), stimulated via growth factor signalling pathways, is known to potentiate ERalpha ligand-induced transactivation function. Besides MAPK, cyclin dependent kinase 7 (Cdk7) in the TFIIH complex has also been found to potentiate hERalpha transactivation in vitro through Ser(118) phosphorylation. To investigate an impact of Cdk7 on hERalpha transactivation in vivo, we assessed activity of hERalpha in a wild-type and cdk7 inactive mutant Drosophila that ectopically expressed hERalpha in the eye disc. Ectopic expression of the wild-type or mutant receptors, together with a green fluorescent protein (GFP) reporter gene, allowed us to demonstrate that hERalpha expressed in the fly tissues was transcriptionally functional and adequately responded to hERalpha ligands in the patterns similar to those observed in mammalian cells. Replacement of Ser(118) with alanine in hERalpha (S118A mutant) significantly reduced the ligand-induced hERalpha transactivation function. Importantly, while in cdk7 inactive mutant Drosophila the wild-type hERalpha exhibited reduced response to the ligand; levels of transactivation by the hERalpha S118A mutant were not affected in these inactive cdk7 mutant flies. Furthermore, phosphorylation of hERalpha at Ser(118) has been observed in vitro by both human and Drosophila Cdk7. Our findings demonstrate that Cdk7 is involved in regulation of the ligand-induced transactivation function of hERalphain vivo via Ser(118) phosphorylation.
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PMID:In vivo potentiation of human oestrogen receptor alpha by Cdk7-mediated phosphorylation. 2465 80

Experiments were conducted to test whether oestradiol (E2) protects granulosa cells from Fas ligand (FasL)-induced apoptosis and whether protection involves modulation of the cell cycle of proliferation. Treatment of cultured bovine granulosa cells with E2 decreased susceptibility to FasL-induced apoptosis. The effects of E2 were mediated through oestrogen receptor and were not mediated by stimulation of IGF production. E2 also increased the percentage of cells progressing from G1 to S phase of the cell cycle, and increased expression of cyclin D2 protein and the cell proliferation marker Ki67. Progression from G1 to S phase of the cell cycle was necessary for the protective effect of E2; blocking progression from G1 to S phase with the cdk2 inhibitor roscovitine, or blocking cells in S phase with hydroxyurea, prevented protection by E2. The stages of the cell cycle during which granulosa cells are susceptible to apoptosis were assessed. First, treatment with the G1 phase blocker, mimosine, protected cells from FasL-induced apoptosis, indicating that cells in G0 or early- to mid-G1 phase are relatively resistant to apoptosis. Secondly, examination of recent DNA synthesis by cells that became apoptotic indicated that apoptosis did not occur in S, G2 or M phases. Taken together, the experiments indicate that cells may be most susceptible to apoptosis at the transition from G1 to S phase. E2 stimulates transition from G1 to S phase and protects against apoptosis only when cell cycle progression is unperturbed.
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PMID:The susceptibility of granulosa cells to apoptosis is influenced by oestradiol and the cell cycle. 1673 76

A critical review of the highlights in breast cancer research from the American Society of Clinical Oncology (ASCO) meeting 2016, held in June 2016 in Chicago, is presented in this podcast. Considering the most interesting and practice-changing studies reported at the meeting, in the advanced breast cancer setting several important confirmatory studies on the use of CDK inhibitors, and studies on using data on oestrogen receptor mutations to guide choices of endocrine therapy are discussed. The PHEREXA trial, in which a combination trastuzumab and pertuzumab was studied in the advanced setting is also considered. In the early breast cancer setting, the KRISTINE and ADAPT studies evaluated the potential of dual blockade in HER2-positive tumours. In HER2-negative early breast cancer several trials are also discussed with respect to types of adjuvant chemotherapy. The results of the MA.17R trial, which considered extending the duration of adjuvant endocrine therapy, are also discussed. The potential role of immunotherapy in breast cancer therapy is briefly mentioned.
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PMID:Highlights in breast cancer from ASCO 2016. 2790 71

Breast cancer is a classical hormone-dependent tumour; therefore, endocrine therapy is the mainstay of treatment for hormone receptor-positive, human epidermal growth factor 2-negative advanced breast cancer. Until recently, classical endocrine agents such as tamoxifen, steroidal and nonsteroidal aromatase inhibitors and fulvestrant have been widely used in postmenopausal patients to treat locally advanced or metastatic disease. However, for patients with this subtype of breast cancer, the landscape of endocrine therapy is rapidly changing. Therapies targeting oestrogen modulation have evolved in recent years following the introduction of targeted agents, mTOR and CDK 4/6 inhibitors that are administered in combination with hormone therapy. As a result, options for endocrine therapy have expanded in recent years, and a variety of single-agent or combinations of targeted drugs and endocrine therapies are accepted. Fulvestrant is a selective oestrogen receptor downregulator (SERD) which was introduced to clinical practice in 2002, initially with the indication to treat postmenopausal women with hormone-receptor-positive advanced breast cancer as second-line therapy postdisease progression after aromatase inhibitors or tamoxifen. Additionally, fulvestrant has also been shown to be active in patients previously untreated with endocrine therapy, either both in the neoadjuvant and the metastatic setting, alone or in combination with other targeted therapies. Currently, the standard dose is 500 mg, which is administered with a loading dose. Fulvestrant received a new FDA indication in December 2016, in combination with palbociclib, both in pre/peri/postmenopausal women with breast cancer progressing after endocrine therapy. This manuscript aims to give an overview of new efficacy data and the current role of fulvestrant in the systemic therapy of hormone-receptor-positive advanced breast cancer, in the context of other available therapeutic modalities.
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PMID:Fulvestrant in advanced breast cancer: evidence to date and place in therapy. 2934 9

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