EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Partial hepatectomy (PH) or toxic liver injury induces the proliferation of terminally differentiated hepatic cells to regenerate the original size of the adult liver. Previous PH liver regeneration studies showed that premature transgenic expression of the Forkhead Box M1b (FoxM1b, HFH-11B) transcription factor accelerated hepatocyte entry into DNA replication (S-phase). In this study, we used carbon tetrachloride (CCl(4)) liver injury to induce a different type of mouse liver regeneration and show that premature hepatic HFH-11B levels also accelerate the onset of hepatocyte S-phase in this injury model. Unlike PH liver regeneration, earlier hepatocyte proliferation after CCl(4) liver injury is correlated with diminished transgenic hepatic levels of p21(CIP1/WAF1) at the G1/S transition of the cell cycle. Differential hybridization of cDNA arrays and RNase protection studies determined that CCl(4) regenerating liver of transgenic mice displayed early stimulated expression of the S-phase promoting cyclin D1 and cyclin E and sustained levels of Cdc25a phosphatase genes. Compared with previous PH liver regeneration studies, our data suggest that premature expression of HFH-11B activates distinct S-phase promotion pathways in the CCl(4) liver injury model. Although proliferating transgenic hepatocytes induced by either PH or CCl(4) liver injury displayed early expression of identical M-phase cyclin genes (cyclin B1, B2, A2, and F), only CCl(4) regenerating transgenic liver exhibited earlier expression of the M-phase promoting Cdc25b. These studies suggest that CCl(4) injury of transgenic liver not only uses the same mechanisms as PH to mediate accelerated hepatocyte entry into mitosis, but also promotes M-phase entry by stimulating Cdc25b expression.
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PMID:Earlier expression of the transcription factor HFH-11B diminishes induction of p21(CIP1/WAF1) levels and accelerates mouse hepatocyte entry into S-phase following carbon tetrachloride liver injury. 1139 29

Despite many efforts to alter the relentlessly aggressive progression of tumors of neural origin, individuals bearing these tumors exhibit poor prognosis for long-term survival. In an attempt to find an effective treatment, we examined the efficacy of the non-steroidal anti-inflammatory drug, flurbiprofen, to suppress the growth of tumor cell lines derived from medulloblastoma and glioblastoma multiforme. Results from cell proliferation assays have revealed that flurbiprofen effectively inhibits the growth of various tumor cells in a dose-dependent manner and causes a noticeable change in the progression of cells through cell cycle stages. Treatment of tumor cells with flurbiprofen reduced the number of cells in G1 and G2, and significantly increased their numbers in S phase, suggesting that, flurbiprofen accelerates G1/S entry, and/or delays cell exit from S to G2/M stages. Results from RNase protection assay and Western blot analysis showed that while treatment of cells with flurbiprofen causes a minor change in the RNA level of different cyclins, there is a significant decrease in the level of cyclin B protein upon flurbiprofen treatment. Examination of tumor suppressors by RNase protection technique showed a subtle increase in the levels of several tumor suppressors upon flurbiprofen treatment. Interestingly, at the protein level, p53 tumor suppressor was substantially increased upon flurbiprofen treatment, yet the level of p21, a downstream target for p53 remained unchanged. Curiously, treatment of the cells with flurbiprofen enhanced the level of COX-2 expression. Results from co-immunoprecipitation showed association of COX-2 with p53 in tumor cells. These observations suggest that the interaction of COX-2 with p53 may cause p21-independent suppression of tumor cell growth upon flurbiprofen treatment.
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PMID:Inhibition of human brain tumor cell growth by the anti-inflammatory drug, flurbiprofen. 1168 65

A single dose of dioxin (2,3,7,8-tetrachlorodibenzo-p-dioxin or TCDD; 5 microg/kg, ip) inhibits 17beta-estradiol (E2)-induced uterine epithelial mitogenesis, apparently through disruption of stromal-epithelial interactions. To understand if TCDD alters early uterine (Ut) responses to E2, young adult C57BL/6J mice were ovariectomized and given (i.p.) either oil or 5 microg/kg TCDD. After 24 h, TCDD-treated mice received E2, and oil-treated mice were given E2 or oil. Body and Ut weights were collected 6 and 18 h later. Ut were flash-frozen at 6 h. E2 increased Ut weight (p < 0.0001) and Ut/body weight ratio (p < 0.0001), compared to mice given oil alone. Ut cyclin expression was assessed by an RNase protection assay. E2 increased mRNA expression for cyclin A2 and B1 (p < 0.05), in addition to D1, D2, and D3 (p < 0.001), while cyclin C was unchanged from oil controls and cyclins A1 and B2 were undetectable. In contrast, TCDD completely abolished E2-induced cyclin A2, which has been associated with S phase initiation, and reduced B1 and D2 (p < 0.05). Interestingly, TCDD did not alter E2-induced Ut weight increases at 6 h, but inhibited E2-induced Ut weight gain at 18 h. A 10-microg/kg TCDD dose was necessary for attenuation of the early E2-induced Ut weight increases (p < 0.01). Since TGF-beta regulates cyclins, Ut TGF-beta was also assessed in TCDD + E2-treated and control mice. TGF-beta mRNA levels were increased after TCDD compared to E2 alone (p < 0.01), suggesting a possible mechanism for TCDD inhibition of Ut cyclin A2. Thus, TCDD alters specific E2-regulated Ut G(1) phase activities and may inhibit E2-induced Ut epithelial mitogenesis by disrupting specific cell signaling mechanisms necessary for S phase initiation in vivo.
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PMID:Dioxin inhibition of estrogen-induced mouse uterine epithelial mitogenesis involves changes in cyclin and transforming growth factor-beta expression. 1186 73

Accumulating evidence suggests that lack of balance between proliferation and apoptosis may lead to clonal expansion and cancer emergence. In diffuse large B cell lymphoma (DLBCL), survivin expression by tumor cells has been recently described as a poor prognostic marker. We assessed the relationship between survivin gene up-regulation and several other factors involved in either cell cycle or apoptosis control. The expression of 34 genes from 27 cases of DLBCL with typical IPI factor-related poor prognostic outcome was analyzed by RNase protection assay. Using non-neoplastic tissues and low grade lymphomas as control, survivin expression was high in 80% of the cases without significant relation to patient overall survival (P = 0.64). However, the expression of several genes encoding for cell cycle inhibitors, cyclins, Bcl-2 or IAP family factors was significantly associated with the survivin up-regulation. Gene expression profiling showed that both survivin and cyclin B expression can define two subgroups of DLBCL: the previously described germinal center-like and activated B-like lymphomas, determined by protein expression analysis. We also identified a preferential survivin-cyclin B relationship (P = 0.017), suggesting that cyclin B over-expression, when linked to survivin over-expression in aggressive forms of lymphoma, might demonstrate a specific G2/M transition promotion.
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PMID:Relationship between expression of genes involved in cell cycle control and apoptosis in diffuse large B cell lymphoma: a preferential survivin-cyclin B link. 1196 Mar 56

We have identified a cell cycle delay in Saccharomyces cerevisiae RNase MRP mutants. Mutants delay with large budded cells, dumbbell-shaped nuclei, and extended spindles characteristic of "exit from mitosis" mutants. In accord with this, a RNase MRP mutation can be suppressed by overexpressing the polo-like kinase CDC5 or by deleting the B-type cyclin CLB1, without restoring the MRP-dependent rRNA-processing step. In addition, we identified a series of genetic interactions between RNase MRP mutations and mutations in CDC5, CDC14, CDC15, CLB2, and CLB5. As in most "exit from mitosis" mutants, levels of the Clb2 cyclin were increased. The buildup of Clb2 protein is not the result of a defect in the release of the Cdc14 phosphatase from the nucleolus, but rather the result of an increase in CLB2 mRNA levels. These results indicate a clear role of RNase MRP in cell cycle progression at the end of mitosis. Conservation of this function in humans may explain many of the pleiotropic phenotypes of cartilage hair hypoplasia.
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PMID:The Saccharomyces cerevisiae RNase mitochondrial RNA processing is critical for cell cycle progression at the end of mitosis. 1213 8

Premature senescence of human diploid fibroblasts (HDFs) induced by exposure to H2O2 at subcytotoxic concentration is characterized by many biomarkers of normal senescence such as irreversible growth arrest. Cyclin-dependent kinase inhibitor (CdKI) p21(Waf-1) is overexpressed in H2O2- and tert-butylhydroperoxide-induced premature senescence, likely explaining in part the hypophosphorylation of the retinoblastoma protein. p21(Waf-1) is known to inhibit the kinase activity of the cyclin-dependent kinase (CdK) 4 and 6 cyclin complexes. In this work, we investigated whether the kinase activity of the CdK4 and 6 cyclin complexes can be modulated by CdKI p16(Ink-4a), by changes in the protein level of CdKs and cyclins, or by changes in kinase activity of these CdKs not directly involving CdKIs. RNase protection assay, semi-quantitative RT-PCR, Western blot and kinase assay showed that the mRNA level, protein and kinase activity of CdK2 are decreased at 72h after H2O2 stress. These results suggest that the hypophosphorylation of the retinoblastoma protein is mediated in part by a decrease of the kinase activity of CdK2 not directly involving CdKIs. This CdK2-mediated effect should be considered in addition to the inhibition of cyclin D-CdK4 and 6 complexes by CdKI p21(Waf-1).
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PMID:Down-regulation and decreased activity of cyclin-dependent kinase 2 in H2O2-induced premature senescence. 1247 75

The expression of different cell cycle proteins in terminally differentiated neurons apparently precedes cell death or contributes to pathogenetic progression of Alzheimer's disease (AD). Cyclins and cyclin-dependent kinases (Cdks), physiologically involved in mitotic processes of proliferating cells, are elevated in neurons prone to dedifferentiation and degeneration. Previously, it was shown that even inhibitors of the Cdks as p16(INK4a), p18(INK4c) or p27(KIP1) are expressed in neurons of AD patients, indicating a rather complete involvement of cell cycle machinery in affected neurons. The aim of this study was to examine the involvement of the non-classical cyclin C in the pathogenetic process of AD. A marked elevated immunoreactivity of cyclin C was found both in neurons and astrocytes in AD. Increased levels of cyclin C RNA were detected by ribonuclease protection assay (RPA) in severe AD cases. Colocalization of cyclin C and its preferred binding partner, Cdk8, was only observed in astrocytes but not in neurons. The present observations suggest different cellular functions of cyclin C in neurons and astrocytes in AD.
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PMID:Cyclin C expression is involved in the pathogenesis of Alzheimer's disease. 1260 Jul 19

The interactions of glia and neurons during injury and subsequent neurodegeneration are a subject of interest both in disease and chemical-induced brain injury. One such model is the prototypical hippocampal toxicant trimethyltin (TMT). An acute injection of TMT (2.0 mg/kg, i.p.) to postnatal day 21 CD-1 male mice produced neuronal necrosis and loss of dentate granule cells, astrocyte hypertrophy, and microglia activation in the hippocampus within 24 hrs. Neuronal necrosis and microglia differentiation to a phagocytic phenotype is temporally correlated with peak elevations in TNF-alpha, cyclin A2, cyclin B1 and cyclin D1 at 72 h post-TMT. TNF-alpha mRNA levels were significantly elevated in the hippocampus by 12 h and remained elevated for 72 h. mRNA levels for cyclin A2 and cyclin B1 were elevated by approximately 2-fold at 72 h. Immunohistochemistry suggested a cellular localization of cyclin A to microglia in the region of neuronal necrosis in the dentate, cyclin B in glial cells in juxtaposition to neurons in the hilus of the hippocampus and cyclin D1 to non-glial cells in the dentate. mRNA levels for cyclin D1 were elevated approximately 1.5-fold by 72 h as determined by RNase protection assay. No changes were seen in mRNA levels for cyclins E, F, G1, G2, H or I nor cyclin dependent kinases. These elevations are not associated with proliferation of microglia as determined by BrdU incorporation and Ki-67 immunohistochemistry. Upregulation of cell cycle genes was associated with cellular processes other than proliferation and may contribute to the differentiation of microglia to a phagocytic phenotype. These data suggest an integrated role for cell cycle regulation of neural cells in the manifestation of hippocampal pathophysiology.
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PMID:Alterations in cyclin A, B, and D1 in mouse dentate gyrus following TMT-induced hippocampal damage. 1471 53

RNase mitochondrial RNA processing (RNase MRP) mutants have been shown to have an exit-from-mitosis defect that is caused by an increase in CLB2 mRNA levels, leading to increased Clb2p (B-cyclin) levels and a resulting late anaphase delay. Here we describe the molecular defect behind this delay. CLB2 mRNA normally disappears rapidly as cells complete mitosis, but the level remains high in RNase MRP mutants. This is in direct contrast to other exit-from-mitosis mutants and is the result of an increase in CLB2 mRNA stability. We found that highly purified RNase MRP cleaved the 5' untranslated region (UTR) of the CLB2 mRNA in several places in an in vitro assay. In vivo, we identified RNase MRP-dependent cleavage products on the CLB2 mRNA that closely matched in vitro products. Disposal of these products was dependent on the 5'-->3' exoribonuclease Xrn1 and not the exosome. Our results demonstrate that the endoribonuclease RNase MRP specifically cleaves the CLB2 mRNA in its 5'-UTR to allow rapid 5' to 3' degradation by the Xrn1 nuclease. Degradation of the CLB2 mRNA by the RNase MRP endonuclease provides a novel way to regulate the cell cycle that complements the protein degradation machinery. In addition, these results denote a new mechanism of mRNA degradation not seen before in the yeast Saccharomyces cerevisiae.
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PMID:RNase MRP cleaves the CLB2 mRNA to promote cell cycle progression: novel method of mRNA degradation. 1472 43

Initiation and progression through G1 requires the activity of signaling complexes containing cyclins (D- or E-type) and cyclin-dependent kinases (CDK4/6 and CDK2, respectively). We set out to identify the G1-phase cyclins and CDKs that are operative during late gestation liver development in the rat. This is a period during which hepatocytes show a high rate of proliferation that is, at least in part, independent of the mitogenic signaling pathways that are functional in mature hepatocytes. RNase protection assay and Western immunoblotting indicated that cyclin D1 is expressed at similar levels in fetal and adult liver. When cyclin D1 was induced after partial hepatectomy, its predominant CDK-binding partner was CDK4. In contrast, cyclins D2 and D3 predominated in fetal liver and were complexed with both CDK4 and CDK6. Little CDK6 protein was expressed in quiescent or regenerating adult liver. Cyclins E1 and E2 were both transcriptionally up-regulated in fetal liver. Activity of complexes containing cyclins E1 and E2 was higher in fetal liver, as was content of the cell cycle regulator, Rb. In fetal liver, Rb was highly phosphorylated at both cyclin D- and cyclin E-dependent sites. In conclusion, liver development is associated with a switch from cyclin D2/D3-containing complexes to cyclin D1:CDK4 complexes. We speculate that the switch in D-type cyclins may be associated with the dependence on mitogenic signaling that develops as hepatocytes mature.
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PMID:D-type cyclins and G1 progression during liver development in the rat. 1580 57

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