EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Raf-1, the product of proto-oncogene c-raf-1, has key roles in the signal transduction pathways within the cell. The molecular mechanisms of tooth development in the mouse embryo are not known in detail. We examined the expression of Raf-1 during subsequent tooth development by immunohistochemical analysis. In mouse embryos at days 12.5 post-coitum (p.c.), Raf-1 was expressed in the dental invaginating epithelium. At p.c. 13.5 (bud stage), Raf-1 was also expressed in the epithelial cells of the enamel organ, but not in the mesenchyme of the dental papilla. We added anti-proliferating cell nuclear antigen (PCNA) antibody as a marker for proliferating cells at early stages of tooth development. At p.c. 12.5 and p.c. 13.5, the staining patterns were very similar to that for Raf-1. At p.c. 15.5 (cap stage), Raf-1 could not be detected. At p.c. 17.5 (bell stage), Raf-1 was expressed in both the odontoblastic and subodontoblastic cells of the dental papilla. However, Raf-1 was not found in the epithelial cells of the enamel organ. We also added anti-type I collagen antibody as a marker for odontoblasts differentiation. The staining pattern for type I collagen antibody as a marker for odontoblasts differentiation. The staining pattern for type I collagen in odontoblasts was almost the same as for Raf-1. The results suggest that Raf-1 may play some roles in both cell proliferation and differentiation at different stages of tooth germ development.
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PMID:Expression patterns of Raf-1 suggest multiple roles in tooth development. 882 40

C/EBPalpha has a role in growth arrest and differentiation of mouse preadipocytes. To study the mechanism of C/EBPalpha-induced growth arrest, we developed a cell line, HT1, that contained the human C/EBPalpha gene under Lac repressor control. IPTG-induced C/EBPalpha caused inhibition of cell proliferation and DNA synthesis as measured by colony growth assays, cell counting, and BrdU uptake. A number of proteins that are known to be involved in the regulation of the cell cycle, such as cyclin-dependent kinase (CDK)2 and CDK4, proliferating cell nuclear antigen (PCNA), p53, c-fos, and the CDK inhibitor p16 and p27 were investigated by Western analysis. No change in their expression was observed. However, the p21 (WAF-1/CIP-1/SDI-1) protein was significantly elevated in growth-arrested HT1 cells. Elevation of p21/SDI-1 mRNA (threefold) and activation of the p21/SDI-1 promoter by C/EBPalpha did not account for the 12- to 20-fold increase in p21/SDI-1 protein. Protein synthesis inhibition by cycloheximide (CHX) treatment indicated that the half-life of p21/SDI-1 in dividing HT1 cells was approximately 30 min. However, in C/EBPalpha growth-arrested cells, the level of the p21/SDI-1 did not change for > 80 min after CHX addition. Our studies demonstrate that C/EBPalpha activates p21/SDI-1 by increasing p21/SDI-1 gene expression and by post-translational stabilization of p21/SDI-1 protein. Furthermore, induction of p21/SDI-1 is responsible for the ability of C/EBPalpha to inhibit proliferation because transcription of antisense p21/SDI-1 mRNA eliminated growth inhibition by C/EBPalpha.
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PMID:CCAAT/enhancer-binding protein alpha (C/EBP alpha) inhibits cell proliferation through the p21 (WAF-1/CIP-1/SDI-1) protein. 884 17

We have isolated Xenopus p28Kix1, a member of the p21CIP1/p27KIP1/p57KIP2 family of cyclin-dependent kinase (Cdk) inhibitors. Members of this family negatively regulate cell cycle progression in mammalian cells by inhibiting the activities of Cdks. p28 shows significant sequence homology with p21, p27, and p57 in its N-terminal region, where the Cdk inhibition domain is known to reside. In contrast, the C-terminal domain of p28 is distinct from that of p21, p27, and p57. In co-immunoprecipitation experiments, p28 was found to be associated with Cdk2, cyclin E, and cyclin A, but not the Cdc2/cyclin B complex in Xenopus egg extracts. Xenopus p28 associates with the proliferating cell nuclear antigen, but with a substantially lower affinity than human p21. In kinase assays with recombinant Cdks, p28 inhibits pre-activated Cdk2/cyclin E and Cdk2/cyclin A, but not Cdc2/cyclin B. However, at high concentrations, p28 does prevent the activation of Cdc2/cyclin B by the Cdk-activating kinase. Consistent with the role of p28 as a Cdk inhibitor, recombinant p28 elicits an inhibition of both DNA replication and mitosis upon addition to egg extracts, indicating that it can regulate multiple cell cycle transitions. The level of p28 protein shows a dramatic developmental profile: it is low in Xenopus oocytes, eggs, and embryos up to stage 11, but increases approximately 100-fold between stages 12 and 13, and remains high thereafter. The induction of p28 expression temporally coincides with late gastrulation. Thus, although p28 may play only a limited role during the early embryonic cleavages, it may function later in development to establish a somatic type of cell cycle. Taken together, our results indicate that Xenopus p28 is a new member of the p21/p27/p57 class of Cdk inhibitors, and that it may play a role in developmental processes.
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PMID:Cell cycle control by Xenopus p28Kix1, a developmentally regulated inhibitor of cyclin-dependent kinases. 886 73

Cell proliferation control is ensured by a group of proteins named cyclin-dependent kinases (CDKs), the activation of which is dependent on phosphorylation and cyclin association. In parallel, these CDKs are negatively controlled by two distinct groups of inhibitory proteins, the cyclin-dependent kinase inhibitors (CKIs). The first group, including p16Ink4a, p15Ink4b, p18Ink4c and p19Ink4d, is specific for the G1 CDKs, CDK4 and CDK6, inhibiting the kinase activity of cyclin D/CDK4-CDK6 complexes on pRb. p16Ink4a, down-regulated by pRb, inhibits G1 CDKs by competition with cyclin D; p15Ink4b, the synthesis of which is induced by TGF beta, seems to be a mediator of TGF beta-mediated cell cycle arrest. Furthermore, p18Ink4c inhibits CDK6 phosphorylation and activation by CAK. The second CKIs family is constituted by p21Waf1, p27Kip1 and p57Kip2. Their inhibitory action concerns a large range of cyclin/CDK complexes involved in G1 and S phase. p21Waf1, induced in part by p53, is up-regulated by senescence, DNA damage and cellular differentiation. p21Waf1 forms quaternary complexes with CDKs, cyclins and PCNA. Its inhibitory action, preventing CDK from phosphorylation, depends on the stoichiometry of the components. As p15Ink4b, p27Kip1 causes late G1 cell cycle arrest after TGF beta treatment and contact inhibition. The implications of CKIs in hematological malignancies are function of deletions or mutations of their genes. p16Ink4a and p15Ink4b genes, localized on 9p21, present frequent homozygous deletions in ALL T, ATL and lymphoblastic acutisation of CML. The other CKIs present very rare homozygous deletions or mutations, particularly p21Waf1 and p27Kip2. However, reduction of inhibitory activity due to hemizygous deletions might favour leukemogenesis.
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PMID:Cyclin-dependent kinase inhibitors (CKIs) and hematological malignancies. 889 23

Cell cycle progression is regulated by cyclin-dependent kinases. Using in vitro replication of SV40 origin containing DNA as a model system, we have performed a detailed analysis of the dependence on cyclin-associated kinases of mammalian DNA replication. Complete immunodepletion of cyclin A from human S phase cell extracts decreases replication, and replication activity of cyclin A-depleted S phase extracts can subsequently be restored by the addition of purified CDK2-cyclin A kinase. Addition of cyclin A alone reconstitutes both kinase activity and DNA replication, whereas addition of cyclin E or cyclin B reconstitutes neither. We therefore conclude that reconstitution of DNA replication specifically correlates with an increase in kinase activity. By comparison, depletion of cyclin E from S phase cell extracts does not have any significant inhibitory effect on DNA replication. Moreover, specific p21(Waf1) mutants that bind to CDK2-cyclin and inhibit both cyclin A and cyclin E kinase activities, but do not bind to proliferating cell nuclear antigen, inhibit DNA replication to the same extent as cyclin A depletion. Together, these results show that the kinase activity associated with cyclin A, but not with cyclin E, is primarily responsible for activating SV40 plasmid replication in mammalian S phase cell extracts. Finally, we present evidence that the cyclin-dependent kinase does not influence the assembly of initiation complexes but acts at a stage prior to elongation.
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PMID:Role for cyclin A-dependent kinase in DNA replication in human S phase cell extracts. 894 Jan 82

Adenosine 3',5'-cyclic monophosphate (cAMP) prevents epidermal growth factor (EGF)-induced DNA synthesis in many types of cultured cells, including hepatocytes, but its effects on cellular proliferation in vivo are unknown. This study compares the effects of supplemental cAMP on hepatocyte proliferation induced in vivo by 70% partial hepatectomy (PH) and in vitro by EGF and determines the effects of cAMP on AP-1, a family of growth-regulatory transcription factors, and the kinase cascades that normally activate AP-1. Although injection of dibutyryladenosine 3',5'-cyclic monophosphate (30 mg/kgip) at the time of PH increased liver cAMP concentrations at least 100-fold for several hours, it did not inhibit hepatic incorporation of [3H]thymidine or proliferating cell nuclear antigen expression 24 h after PH. cAMP treatment led to a complete inhibition of extracellular signal-related kinase (ERK) activity and transiently reduced NH2-terminal Jun nuclear kinase (JNK) activity after PH but did not decrease the expression of c-jun mRNA or protein. Consistent with the known cAMP stimulation of jun-B in cultured cells, cAMP treatment increased jun-B mRNA, protein, and DNA binding activity post-PH. Surprisingly, cAMP treatment enhanced Raf kinase activity after PH in rats. In primary hepatocyte cultures, supplemental cAMP inhibited JNK and ERK activity, total AP-1 and c-Jun transcriptional activities, and DNA synthesis. Thus elevated cAMP inhibited ERK and JNK activity in culture and in vivo and inhibited hepatocyte proliferation in culture but not in vivo. This suggests that in vivo mechanisms compensate for cAMP inhibition of certain growth-related signaling cascades and emphasizes potential risks of extrapolating from simple cell culture systems to explain physiology in intact animals.
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PMID:Differential regulation of hepatocyte DNA synthesis by cAMP in vitro in vivo. 894 91

A high concentration (50 micrograms/ml) of gamma-linolenic acid (GLA) induced morphological lesions typical of apoptosis, as well as DNA fragmentation, in HeLa cells. A lower concentration of GLA (20 micrograms/ml), caused an increased proliferating cell nuclear antigen (PCNA) labelling, with 92.7% cells positive, compared to 27.7% at a concentration of 50 micrograms/ml GLA. In correlation with these results, the number of cells with degraded DNA below the G0/G1 peak increased significantly in the 50 micrograms/ml GLA-treated cells, but increased only slightly in cells exposed to the lower level of GLA. The high levels of PCNA induced by 20 micrograms/ml GLA, in both G1 and S phases, may indicate a state of DNA repair synthesis, whilst at the higher concentration of GLA, most of the cells became apoptotic. Since apoptosis is associated with the deregulation of c-Myc expression, and as the Raf-1-MAP kinase cascade activates the expression of c-Myc and c-Jun, we investigated the effects of 20 and 50 micrograms/ml GLA on the Raf-1, c-Myc and c-Jun levels, and on the activity of MAP kinase. The results showed that 50 micrograms/ml GLA lowered the activity of MAP kinase. As expected with the decreased MAP kinase activity in the cells exposed to the higher level GLA, the c-Jun levels were also lowered. The levels of c-Myc, however, were increased. It is therefore possible that the deregulated expression of c-Myc in the HeLa cells exposed to the high level of GLA (50 micrograms/ml) may contribute to the induction of apoptosis in HeLa cells.
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PMID:The induction of apoptosis in human cervical carcinoma (HeLa) cells by gamma-linolenic acid. 901 18

The response to therapy of leukemic cells is largely determined by their capacity of proliferation and apoptosis in presence of the administered drugs. We describe here the main markers used in flow cytometry (FCM) and involved in the assessment of cell cycle parameters: single labeling by Propidium Iodide (PI) and double labeling anti-Bromodeoxyuridine (BrdUrd)/PI which, both in vitro and in vivo, gives cell percentages in the different cell cycle phases. The markers of cell cycle progression can be divided into proliferation markers such as PCNA (proliferating cell nuclear antigen) or Ki-67 and cell cycle progression markers. The latter, which are the core of the cell cycle machinery, are molecules recently characterized (Cyclins, CDKs (cell dependent kinases), CDIs (cyclin-dependent kinase inhibitors)) and their cell expression can be analyzed using FCM. FCM is also one of the best means to detect and quantitate apoptotic cells. Several techniques are described: Nuclear labeling using Hoechst 33342: mitochondrial labeling using DiOC6(3): detection of DNA fragmentation using 1) labeling of fixed and permeabilized cells with a DNA marker or 2) labeling of the free 3' DNA ends using incorporation of labeled deoxynucleotides; detection in apoptotic cells (Bcl-2, Fas, phospholipids...). At last, we analyzed flow cytometry methods to study the cell resistance to Ara-C and anthracyclins. In combination with cell kinetic studies and detection of apoptotic cells, they should increase the efficiency of the acute leukemia treatment.
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PMID:Flow cytometry study of cell cycle, apoptosis and drug resistance in acute leukemia. 903 Sep 62

Decidualization of human endometrial stromal (ES) cells in vitro is induced by cAMP analogs and ligands that elevate cellular cAMP levels. A marker of this differentiation process is the activation of the decidual PRL (dPRL) promoter. In a primary ES cell culture system we show that relaxin not only acutely but permanently elevates cellular cAMP levels and leads to induction of PRL secretion after 6 days Northern and Western blot analyses revealed that all regulatory subunit isoforms (RI alpha, RI beta, RII alpha, and RII beta) and catalytic subunits C alpha and C beta of protein kinase A (PKA) are expressed in ES cells. Transcript levels of PKA subunit isoforms are not altered during decidualization but in decidualized ES cells, exposed to relaxin for more than 6 days a significant reduction of RI alpha protein level occurs, whereas levels of all other forms remain unchanged. Reduction of R subunits might result in a net increase in free C subunit activity. This alteration is not due to a change in the mitotic state of the cells, as proliferating cell nuclear antigen is evenly expressed in undifferentiated and differentiated ES cell cultures. In transient transfections of undifferentiated ES cells, the dPRL promoter is activated by 8-bromo-cAMP and the C subunit (C beta) of PKA. This induction as well as the differentiation-dependent activity of the dPRL promoter in transfected decidualized cells are effectively abolished by the coexpression of protein kinase inhibitor. We demonstrate that 332 bp of the dPRL promoter are sufficient to mediate full inducibility by cAMP. Activation of the dPRL promoter by cAMP in ES cells occurs in two steps: an initial weak induction within 12 h and a subsequent, much more pronounced induction after 12 h. The secondary induction is not seen with a control construct driven by a consensus cAMP response element (CRE) linked to a minimal promoter and is absent from a uterine cell line that does not express the endogenous dPRL gene. The early response of the dPRL promoter depends upon a noncanonical CRE at position -12, as mutation of this sequence leads to abolition of the early, but not the delayed, induction. The major activation depends upon a different region within 332 bp of the dPRL promoter; is probably indirect, as it follows different kinetics compared to a classical CRE-mediated response; and is specific to ES cells.
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PMID:Activated protein kinase A is required for differentiation-dependent transcription of the decidual prolactin gene in human endometrial stromal cells. 904 92

Intimal hyperplasia following angioplasty results in part from the migration and proliferation of vascular smooth muscle cells (VSMCs). However, the cell cycle regulatory networks underlying injury-induced VSMC proliferation are largely unknown. In the present study, we examined the kinetics of expression and activity of cell cycle regulatory factors after angioplasty in rat and human arteries. Cell lysates were prepared from uninjured rat carotid arteries and at different time points after balloon denudation. Marked induction of the proliferating cell nuclear antigen (PCNA), the G1/S cyclin-dependent kinase (cdk2), and its regulatory subunits (cyclin E and cyclin A) occurred between 1 and 2 days after angioplasty, was sustained up to 10 days after injury, and then declined. Induction of these factors correlated with increased cdk2-, cyclin E-, and cyclin A-dependent kinase activity, indicating the assembly of functional cdk2/cyclin E and cdk2/cyclin A holoenzymes in the injured arterial wall. Immunohistochemical analysis revealed early expression of cdk2, cyclin E, and PCNA within the media of injured carotid arteries. At later time points, expression of these markers declined to basal levels in the media but was detected within the intimal lesion. Thus, VSMC proliferation after angioplasty in the rat carotid artery is associated with a temporally and spatially coordinated expression of cdk2, cyclins E and A, and PCNA. Analysis of human arteries also revealed expression of these factors in VSMCs within restenotic lesions. Thus, cdk2 and its regulatory cyclins may be suitable targets to limit human restenosis.
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PMID:Temporally and spatially coordinated expression of cell cycle regulatory factors after angioplasty. 904 63

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