EC:2.7.11.22 - FACTA Search

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)

The aim of our study was to examine the involvement of IGF-II, tyrosine kinases (TK)- and MAP kinases (MAPK)-dependent intracellular mechanisms in the control of ovarian functions in the domestic fowl, as well as the role of these kinases in mediating the IGF-II effect on this process. For this purpose, we studied the influence of IGF-II (0,1,10 or 100 ng/ml), inhibitors of TK (AG1024, 1 microg/ml), MAPK (PD98059, 5 microg/ml), and their combinations, on proliferation (expression of proliferation-related substances PCNA), apoptosis (apoptosis-associated protein bax), TK (phosphotyrosine), MAPK (ERK1,2), cyclin-dependent protein kinase 2 (p34/cdc2) and transcription factor CREB-1, as well as on the release of progesterone (P), testosterone (T), estradiol (E) and arginine-vasotocin (AVT) in cultured fragments of ovarian follicles. The presence of substances within ovarian cells was evaluated by SDS PAGE-Western immunoblotting, and release of the substances was measured by using RIA/EIA of ovarian fragments-conditioned medium. It was found, that the addition of IGF-II to the culture medium (1-100 ng/ml) substantially increased expression of PCNA, MAPK and CREB, and decreased the level of p34/cdc2 and bax, but not TK. Furthermore, exogenous IGF-II inhibited P (at a concentration of 100 ng IGF-II/ml medium), and stimulated T (1,10,100 ng/ml), E (10,100 ng/ml) and AVT (1 ng/ml) release by cultured ovarian cells. Inhibitor of TK, when given alone, increased MAPK and E, inhibited p34/cdc2 and AVT, and did not affect accumulation of TK, P or T. Furthermore, TK blocker prevented effects of IGF-II on T, E and AVT, but not on TK, MAPK, p34/cdc2 and P. MAPK blocker augmented PCNA, MAPK, T and AVT expression, but not P or E, and suppressed expression of p34/cdc2 and bax. Furthermore, MAPK inhibitor, given together with IGF-II, prevented or even reversed the action of IGF-II on PCNA, P, T and AVT, but not on MAPK, p34/cdc2, CREB, bax or E. These observations suggest the involvement of IGF-II, TK and MAPK in the control of proliferation, apoptosis, steroid and peptide hormones by avian ovarian cells, as well as of the involvement of these kinases in mediation of some IGF-II effects on ovarian cells.
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PMID:Role of tyrosine kinase- and MAP kinase-dependent intracellular mechanisms in control of ovarian functions in the domestic fowl (Gallus domesticus) and in mediating effects of IGF-II. 1496 54

Several forms of human dwarfism are due to activating mutations in FGFR3 highlighting the role of FGF signaling in the growth attenuation of cartilage. Here, we studied the effects of FGF2 on RCS chondrocytes. Treatment with FGF2 induced growth arrest in the G1 phase of the cell cycle and partial de-differentiation of cells manifested by changes in cell morphology, loss of the cartilage-like extracellular matrix, and down-regulation of aggrecan expression. FGF2 activated phospholipase Cgamma, protein kinase B, and Erk and p38 MAP kinases. Chemical inhibition of FGFR3 and MEK1/2 antagonized FGF2-mediated growth arrest. Expression of a dominant-negative Ras mutant resulted in a partial reversal of growth inhibition while expression of constitutively activated Ras led to Erk-dependent growth arrest, further demonstrating the role of the Ras/Erk pathway in this phenotype. At the molecular level, FGF2-induced growth arrest was initiated by disintegration of cyclin D3-cdk6 complex followed by increased association of p21(WAF1) and p27(Kip1) with the cyclin-cdk2 and cyclin-cdk4 complexes leading to inhibition of their kinase activities and ultimately to underphosphorylation of the p107 and p130 pocket proteins. Both p21(WAF1) and p27(Kip1) accumulated upon FGF2 treatment, but this accumulation occurred at the protein level at least partially due to interaction with transcriptionally induced cyclin D1.
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PMID:FGF2 inhibits proliferation and alters the cartilage-like phenotype of RCS cells. 1519 33

Unregulated FGF signaling produced by activating FGFR3 mutations causes several forms of dwarfism-associated chondrodysplasias in humans and mice. FGF signaling inhibits chondrocyte proliferation by activating multiple signal transduction pathways that all contribute to chondrocyte growth arrest and induction of some aspects of differentiation. Previous studies had identified the Stat1 pathway, dephosphorylation of the Rb family proteins p107 and p130, induction of p21 expression and sustained activation of MAP kinases as playing a role in the FGF response of chondrocytes. We have examined the role of Akt (PKB) in the response of chondrocytes to FGF signaling. Differently from what is observed in many other cell types, FGF does not activate Akt in chondrocytes, and Akt phosphorylation is actually downregulated after FGF treatment. By expressing a constitutively activated, myristylated form of Akt (myr-Akt) in the RCS chondrosarcoma cell line, we show that Akt activation partially counteracts the inhibitory effect of FGF signaling. The response of myr-Akt expressing cells to FGF is identical to parental RCS in the first few hours after treatment, but then diverges as myr-Akt cells show decreased p130 phosphorylation, increased cyclin E/cdk2 activity and continue to proliferate at a slow rate. Constitutive Akt activation does not affect p21 expression but appears to influence directly cdk/cyclin activity. On the other hand, the induction of differentiation-related genes is unchanged in myr-Akt cells. These results identify Akt downregulation as an important aspect of the response of chondrocytes to FGF that, however, only affects chondrocyte proliferation and not the ability of FGF to induce differentiation genes.
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PMID:Downregulation of Akt activity contributes to the growth arrest induced by FGF in chondrocytes. 1652 91

In this paper we have explored the role of different kinase pathways of signal transduction in proliferation control of E1A + Ras transformants, using specific inhibitors of MAP-kinases ERK, JNK, p38 and PI3-kinase. According to our data, suppression of signalling cascades driven by RI3K only arrested proliferation of E1A + Ras cells, while suppression of either MAP-kinase did not lead to noticeable antiproliferative effect. We have shown that suppression of RI3K with LY294002 gave rise to accumulation of cyclin-dependent kinase inhibitor p27(KiP1) but not p21(Waf1). Accumulation of p27(KiP1) in LY294002-treated E1A + Ras cells was accompanied by a decrease in Cyclin E-Cdk2 and Cyclin A-Cdk2 activity, which caused diminution of Rb phosphorylation and strengthening of E2F-Rb binding. Binding of E2F with hypophosphorylated Rb resulted in inhibition of E2F activity and reduction of E2F-regulated gene transcription, these genes being necessary for S-phase entry and DNA synthesis. Thus, RI3K--Akt cascade plays the key role in maintenance of autonomous proliferation of cells transformed with E1A and cHa-ras oncogenes. Inhibition of PI3K leads to p27(Kip1) accumulation and cell cycle arrest, consequently.
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PMID:[The role of different kinase pathways of signal transduction in proliferation of E1A + Ras transformants]. 1670 95

Cell division depends on the fine control of both microtubule dynamics and microtubule organisation. The microtubule bundling protein MAP65 is a ;midzone MAP' essential for the integrity of the anaphase spindle and cell division. Arabidopsis thaliana MAP65-1 (AtMAP65-1) binds and bundles microtubules by forming 25 nm cross-bridges. Moreover, as AtMAP65-1 bundles microtubules in interphase, anaphase and telophase but does not bind microtubules in prophase or metaphase, its activity through the cell cycle must be under tight control. Here we show that AtMAP65-1 is hyperphosphorylated during prometaphase and metaphase and that CDK and MAPK are involved in this phosphorylation. This phosphorylation inhibits AtMAP65-1 activity. Expression of non-phosphorylatable AtMAP65-1 has a negative effect on mitotic progression resulting in excessive accumulation of microtubules in the metaphase spindle midzone causing a delay in mitosis. We conclude that normal metaphase spindle organisation and the transition to anaphase is dependent on inactivation of AtMAP65-1.
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PMID:Control of the AtMAP65-1 interaction with microtubules through the cell cycle. 1684 52

Mouse embryonic stem (mES) cells have short duration of their cell cycle and are capable of proliferating in the absence of growth factors. To find out which signaling pathways contribute to the regulation of the mES cell cycle, we used pharmacological inhibitors of MAP and PI3 kinase cascades. The MAP kinase inhibitors as well as serum withdrawal did not affect mES cell cycle distribution, whereas the inhibitor of PI3K activity, LY294002, induced accumulation of cells in G(1) phase followed by apoptotic cell death. Serum withdrawal also causes apoptosis, but it does not change the content and activity of cell cycle regulators. In contrast, in mES cells treated with LY294002, the activities of Cdk2 and E2F were significantly decreased. Interestingly, LY294002had a much stronger effect on cell cycle distribution in low serum conditions, implying that serum can promote G(1)-->S transition of mES cells by a LY294002-resistant mechanism. Thus, proliferation of mES cells is maintained by at least two separate mechanisms: a LY294002-sensitive pathway, which is active even in the absence of serum, and LY294002-resistant, but serum-dependent, pathway.
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PMID:Phosphoinositide 3-kinase inhibitor LY294002 but not serum withdrawal suppresses proliferation of murine embryonic stem cells. 1732 Nov 71

Epidemiological data suggest that epigallocatechin-3-gallate (EGCG) possesses chemopreventive properties against cancer. In this study, we examined the molecular mechanisms of EGCG in human pancreatic cancer cells. EGCG caused growth arrest at G1 stage of cell cycle through regulation of cyclin D1, cdk4, cdk6, p21/WAF1/CIP1 and p27/KIP1, and induced apoptosis through generation of reactive oxygen species and activation of caspase-3 and caspase-9. EGCG inhibited expressions of Bcl-2 and Bcl-XL and induced expressions of Bax, Bak, Bcl-XS and PUMA. Mouse embryonic fibroblasts (MEFs) derived from Bax and Bak double knockout mice exhibited greater protection against EGCG-induced apoptosis than wild-type or single knockout MEFs. EGCG caused Bax activation in p53 -/- MEFs, suggesting that EGCG can induce apoptosis in the absence of p53. Furthermore, the activities of Ras, Raf-1 and ERK1/2 were inhibited, whereas the activities of MEKK1, JNK1/2 and p38 MAP kinases were induced by EGCG. Inhibition of cRaf-1 or ERK enhanced EGCG-induced apoptosis, whereas inhibition of JNK or p38 MAP kinase inhibited EGCG-induced apoptosis. EGCG inhibited the activation of p90 ribosomal protein S6 kinase, and induced the activation of cJUN. Our results suggest that EGCG induces growth arrest and apoptosis through multiple mechanisms, and can be used for pancreatic cancer prevention.
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PMID:Epigallocatechin-3-gallate inhibits cell cycle and induces apoptosis in pancreatic cancer. 1756 28

JNK and ERK MAP kinases regulate cellular responses to genotoxic stress in a cell type and cell context-dependent manner. However, the factors that determine and execute JNK- and ERK-controlled stress responses are only partly known. In this study, we investigate the roles of the AP-1 components ATF3 and Fra1 in JNK- and ERK-dependent cell cycle arrest and apoptosis. We show that the anti-cancer drug cisplatin or UV light activates both JNK and ERK in human glioblastoma cells lacking functional p53. Inhibition experiments of JNK or ERK activities revealed that the ERK pathway strongly promotes cisplatin- and UV-induced apoptosis in these glioblastoma cells. Furthermore, JNK but not ERK is required for ATF3 induction, and both ERK and JNK are necessary for post-transcriptional induction of Fra1 in response to cisplatin or UV. Knock-down of ATF3 and Fra1 results in increased and decreased cisplatin-induced apoptosis, respectively, indicating that ATF3 is an anti-apoptotic JNK effector and Fra1 is a pro-apoptotic ERK/JNK effector. Knock-down experiments also revealed that ATF3 and Fra1, respectively, enhance and reduce S-phase arrest through differential modulation of the Chk1-Cdk2 pathway. Thus, we identify novel reciprocal functions of ATF3 and Fra1 in JNK- and ERK-dependent DNA damage responses.
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PMID:ATF3 and Fra1 have opposite functions in JNK- and ERK-dependent DNA damage responses. 1824 59

S-Nitrosylation reactions are considered to be a major mechanism by which NO-related bioactivities are regulated in vivo. In the present study, we show the effects of the low molecular weight S-nitrosothiol, S-nitroso-N-acetylpenicillamine (SNAP), on cell cycle progression of rabbit aortic endothelial cells (RAEC). SNAP at low concentrations (0.1mM) stimulated the p21Ras-ERK1/2 MAP kinase signaling pathway. Activation of this signaling pathway was strongly inhibited in cells stably transfected with S-nitrosylation insensitive p21Ras (p21(Ras (C118S))). Furthermore, the SNAP-induced effects on cell cycle progression were eliminated in RAEC expressing N17Ras, a negative dominant mutant of p21Ras. Upon stimulation with SNAP, ERK1/2 MAP kinases become phosphorylated and translocate to the nucleus promoting the phosphorylation of the transcription factor Elk1. Synthesis of Cyclin D1 and stimulation of the cyclin-dependent kinases cdk4 and cdk6 resulted in the phosphorylation of the nuclear protein Rb and its dissociation from the E2F family of transcription factors. Cells then pass the restriction point in the late G1 phase. Cyclins E and A were expressed as the cell cycle progressed through the S phase upon stimulation with SNAP. Further transition in the cell cycle from the G2 to M phase was evidenced by the G2/M peak found in a histogram of the cell-phase distribution in SNAP-treated RAEC. These observations suggest that low molecular weight S-nitrosothiols may promote cell cycle progression possibly through the transnitrosation of p21Ras, and activation of the Ras-ERK1/2 MAP kinases signaling pathway.
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PMID:The low molecular weight S-nitrosothiol, S-nitroso-N-acetylpenicillamine, promotes cell cycle progression in rabbit aortic endothelial cells. 1829 Nov 22

Mangosteen, Garcinia mangostana Linn, is a tree found in South East Asia, and its pericarps have been used as traditional medicine. Phytochemical studies have shown that they contain a variety of secondary metabolites, such as oxygenated and prenylated xanthones. Recent studies revealed that these xanthones exhibited a variety of biological activities containing anti-inflammatory, anti-bacterial, and anti-cancer effects. We previously investigated the anti-proliferative effects of four prenylated xanthones from the pericarps; alpha-mangostin, beta-mangostin, gamma-mangostin, and methoxy-beta-mangostin in various human cancer cells. These xanthones are different in the number of hydroxyl and methoxy groups. Except for methoxy-beta-mangostin, the other three xanthones strongly inhibited cell growth at low concentrations from 5 to 20 microM in human colon cancer DLD-1 cells. Our recent study focused on the mechanism of alpha-mangostin-induced growth inhibition in DLD-1 cells. It was shown that the anti-proliferative effects of the xanthones were associated with cell-cycle arrest by affecting the expression of cyclins, cdc2, and p27; G1 arrest by alpha-mangostin and beta-Mangostin, and S arrest by gamma-mangostin. alpha-Mangostin found to induce apoptosis through the activation of intrinsic pathway following the down-regulation of signaling cascades involving MAP kinases and the serine/threonine kinase Akt. Synergistic effects by the combined treatment of alpha-mangostin and anti-cancer drug 5-FU was to be noted. alpha-Mangostin was found to have a cancer preventive effect in rat carcinogenesis bioassay and the extract from pericarps, which contains mainly alpha-mangostin and gamma-mangostin, exhibited an enhancement of NK cell activity in a mouse model. These findings could provide a relevant basis for the development of xanthones as an agent for cancer prevention and the combination therapy with anti-cancer drugs.
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PMID:Anti-cancer effects of xanthones from pericarps of mangosteen. 1932 54

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