EC:2.7.11.22 - FACTA Search

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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 26S proteasome is a large multisubunit protease complex, the largest regulatory subunit of which is a component named p112. Molecular cloning of cDNA encoding human p112 revealed a polypeptide predicted to have 953 amino acid residues and a molecular mass of 105,865. The human p112 gene was mapped to the q37.1-q37.2 region of chromosome 2. Computer analysis showed that p112 has strong similarity to the Saccharomyces cerevisiae Sen3p, which has been listed in a gene bank as a factor affecting tRNA splicing endonuclease. The SEN3 also was identified in a synthetic lethal screen with the nin1-1 mutant, a temperature-sensitive mutant of NIN1. NIN1 encodes p31, another regulatory subunit of the 26S proteasome, which is necessary for activation of Cdc28p kinase. Disruption of the SEN3 did not affect cell viability, but led to temperature-sensitive growth. The human p112 cDNA suppressed the growth defect at high temperature in a SEN3 disruptant, indicating that p112 is a functional homologue of the yeast Sen3p. Maintenance of SEN3 disruptant cells at the restrictive temperature resulted in a variety of cellular dysfunctions, including defects in proteolysis mediated by the ubiquitin pathway, in the N-end rule system, in the stress response upon cadmium exposure, and in nuclear protein transportation. The functional abnormality induced by SEN3 disruption differs considerably from various phenotypes shown by the nin1-1 mutation, suggesting that these two regulatory subunits of the 26S proteasome play distinct roles in the various processes mediated by the 26S proteasome.
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PMID:CDNA cloning of p112, the largest regulatory subunit of the human 26s proteasome, and functional analysis of its yeast homologue, sen3p. 881 93

The Vpr gene of human immunodeficiency virus type 1 and type 2 (HIV-1, HIV-2) and simian immunodeficiency virus (SIV) encodes a small nuclear protein which is virion-associated and assists nuclear transport of the preintegration complex. Expression of HIV-1 Vpr has been shown to induce differentiation and prevent proliferation of human cells. HIV-1 Vpr has also been shown to arrest cell growth and cause morphological defects in yeast. In contrast, the Vpx gene of HIV-2 and SIV, which shares sequence homology with Vpr, does not seem to inhibit proliferation of human cells. It has been suggested that the cell cycle arrest effect of Vpr and Vpx is species and cell-type dependent. In this study, we have taken advantage of a conditional expression system to characterize the growth inhibitory effects of Vpr and Vpx of HIV-1, HIV-2, and SIV in the fission yeast Schizosaccharomyces pombe. Our results show that both Vpr and/or Vpx of HIV-1, HIV-2, and SIV arrest cell growth in S. pombe, and HIV-1 Vpr is more cytotoxic than HIV-2 or SIV Vpr or Vpx. Flow cytometry analysis indicated that yeast cells cease proliferating with DNA contents indicative of arrest in G1 and G2, with some cells showing signs of overreplication of DNA. While the observed cell cycle arrest phenotype was not identical to that observed in mammalian cells, there were similarities of growth arrest phenotype caused by Vpr and Vpx in yeast and mammalian cells. Specifically, the observation that yeast and mammalians cell both arrest in G2 with reduced p34/cdc2 kinase activity indicates that Vpr and Vpx interact with conserved target(s) in yeast and mammalian cells. The ability to use genetic analysis to elucidate the mechanisms involved makes S. pombe an excellent model system in which to study the effects of Vpr and Vpx on cellular function.
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PMID:Cell cycle inhibitory effects of HIV and SIV Vpr and Vpx in the yeast Schizosaccharomyces pombe. 912 66

We have developed an efficient vector system based on the liposome for the delivery of oligonucleotides and genes into various organs. The liposome was decorated with fusion proteins of HVJ (Sendai virus) to introduce DNA directly into the cytoplasm and contained DNA and DNA-binding nuclear protein inside the particle to enhance its expression. Using the vector, called HVJ-liposome gene delivery system, we attempted to prevent the neointima formation of vascular walls after balloon injury. Antisense oligonucleotides against PCNA and cdc2 kinase transferred into injured arterial walls by protein-liposomes greatly reduced the message of those genes and inhibited neointima formation of the injured artery for 8 weeks. Moreover, double-stranded oligonucleotides containing the consensus sequence for E2F binding sites inhibited the growth of smooth muscle cells and prevented neointima formation. Finally, c-NOS gene was introduced into injured rat carotid artery by HVJ-liposome, and neointima formation was inhibited by 70% for 2-4 weeks.
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PMID:Prevention of restenosis by gene therapy. 918 6

NuMA is a 236 kDa nuclear protein that is required for the organization of the mitotic spindle. To determine how NuMA redistributes in the cell during mitosis, we have examined the behavior of NuMA in a mammalian mitotic extract under conditions conducive to the reassembly of interphase nuclei. NuMA is a soluble protein in mitotic extracts prepared from synchronized cultured cells, but forms insoluble structures when the extract becomes non-mitotic (as judged by the inactivation of cdc2/cyclin B kinase and the disappearance of mpm-2-reactive antigens). These NuMA-containing structures are irregularly shaped particles of 1-2 microm in diameter and their assembly is specific because other nuclear components such as the lamins remain soluble in the extract under these conditions. NuMA is dephosphorylated during this assembly process, and the assembly of these NuMA-containing structures is catalyzed by protein dephosphorylation because protein kinase inhibitors enhance their formation and protein phosphatase inhibitors block their formation. Finally, immunodepletion demonstrates that NuMA is an essential structural component of these insoluble particles, and electron microscopy shows that the particles are composed of a complex interconnected network of foci. These results demonstrate that phosphorylation regulates the solubility of NuMA in a mammalian mitotic extract, and the spontaneous assembly of NuMA into extensive structures upon dephosphorylation supports the conclusion that NuMA serves a structural function.
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PMID:Phosphorylation regulates the assembly of NuMA in a mammalian mitotic extract. 920 89

Phosphatidylinositol 4,5-bisphosphate [PtdIns(4,5)P2] has been known to bind to the pleckstrin homology domain and the phosphotyrosine-binding domain as well as actin-binding proteins, and to regulate their functions. We have tried to find new PtdIns(4,5)P2-binding proteins and to clarify the physiological effects of PtdIns(4,5)P2 on their function. We report here that histones H1 and H3 are PtdIns(4,5)P2-binding proteins which were identified using antibodies specific to PtdIns(4,5)P2, H1, and H3. This binding was further confirmed by extracting PtdIns(4,5)P2 from purified histone H1 and H3. Furthermore, the binding site of PtdIns(4,5)P2 in histone H1 was found in the carboxyl-terminal 103 amino acids. It was also shown that the amounts of PtdIns(4,5)P2 bound to H1 decrease when histone H1 is phosphorylated by protein kinase C but not by protein kinase A or cdc2 kinase, in vitro. The protein kinase C phosphorylation site is localized close to the PtdIns(4,5)P2-binding site, suggesting that phosphorylation of histone H1 by protein kinase C interferes stereostructurally with PtdIns(4,5)P2 binding. We further noticed that PtdIns(4,5)P2 binding to H1 counteracts the histone H1-mediated repression of basal transcription by RNA polymerase II in a Drosophila transcription system in vitro. Phosphatidylinositol 4-phosphate and phosphatidylinositol 3,4,5-trisphosphate affect this transcription activity more weakly than PtdIns(4,5)P2, but PtdIns and other acidic lipids have no effect on this activity. These data indicate that PtdIns(4,5)P2 bound to nuclear protein histone H1 may contribute to the regulation of transcription in eukaryotic cells.
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PMID:Phosphatidylinositol 4,5-bisphosphate reverses the inhibition of RNA transcription caused by histone H1. 949 95

The nuclear protein phosphatase cdc25A has been postulated to be a protooncogene. The total nuclear phosphotyrosyl protein phosphatase (PTP) activity and the expression of cdc25A were compared in normal and cancerous colon epithelial tissue. Nuclei derived from normal mucosal epithelium and tumors were analyzed for phosphotyrosyl protein phosphatase activity using the malachite green assay and a synthetic phosphotyrosyl peptide based on the sequence of cdc2, a known cdc25A phosphotyrosyl protein substrate. Tumorigenesis resulted in elevated nuclear PTP activity (343.0 +/- 37.0% of normal epithelial PTP activity) in 52% (29 of 56) of colon tumors. In all cases elevated nuclear PTP activity correlated with an increase in the expression of cdc25A. The changes in PTP activity observed were not due to any increase in the rate of growth of the colonic mucosa as no corresponding changes occurred with PTP activity under conditions of rapid mucosal growth.
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PMID:Elevated expression of the cdc25A protein phosphatase in colon cancer. 959 96

Despite productive viral gene expression in the peripheral nervous system during acute infection, the bovine herpesvirus 1 (BHV-1) infection cycle is blocked in sensory ganglionic neurons and consequently latency is established. The only abundant viral transcript expressed during latency is the latency-related (LR) RNA. LR gene products inhibit S-phase entry, and binding of the LR protein (LRP) to cyclin A was hypothesized to block cell cycle progression. This study demonstrates LRP is a nuclear protein which is expressed in neurons of latently infected cattle. Affinity chromatography indicated that LRP interacts with cyclin-dependent kinase 2 (cdk2)-cyclin complexes or cdc2-cyclin complexes in transfected human cells or infected bovine cells. After partial purification using three different columns (DEAE-Sepharose, Econo S, and heparin-agarose), LRP was primarily associated with cdk2-cyclin E complexes, an enzyme which is necessary for G1-to-S-phase cell cycle progression. During acute infection of trigeminal ganglia or following dexamethasone-induced reactivation, BHV-1 induces expression of cyclin A in neurons (L. M. Schang, A. Hossain, and C. Jones, J. Virol. 70:3807-3814, 1996). Expression of S-phase regulatory proteins (cyclin A, for example) leads to neuronal apoptosis. Consequently, we hypothesize that interactions between LRP and cell cycle regulatory proteins promote survival of postmitotic neurons during acute infection and/or reactivation.
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PMID:A protein encoded by the latency-related gene of bovine herpesvirus 1 is expressed in trigeminal ganglionic neurons of latently infected cattle and interacts with cyclin-dependent kinase 2 during productive infection. 973 54

Cyclin B3 has been conserved during higher eukaryote evolution as evidenced by its identification in chicken, nematodes, and insects. We demonstrate that Cyclin B3 is present in addition to Cyclins A and B in mitotically proliferating cells and not detectable in endoreduplicating tissues of Drosophila embryos. Cyclin B3 is coimmunoprecipitated with Cdk1(Cdc2) but not with Cdk2(Cdc2c). It is degraded abruptly during mitosis like Cyclins A and B. In contrast to these latter cyclins, which accumulate predominantly in the cytoplasm during interphase, Cyclin B3 is a nuclear protein. Genetic analyses indicate functional redundancies. Double and triple mutant analyses demonstrate that Cyclins A, B, and B3 cooperate to regulate mitosis, but surprisingly single mutants reveal that neither Cyclin B3 nor Cyclin B is required for mitosis. However, both are required for female fertility and Cyclin B also for male fertility.
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PMID:Drosophila Cyclin B3 is required for female fertility and is dispensable for mitosis like Cyclin B. 985 80

We previously obtained a monoclonal antibody (Th-10a mAb) that recognizes a single 95-kDa mouse nuclear protein (NP95). Immunostaining analyses revealed that the NP95 was specifically stained in the S phase of normal mouse thymocytes. In contrast, mouse T cell lymphoma cells exhibited a constantly high level of NP95 accumulation irrespective of cell stages during the cell cycle. In the present study, we isolated the cDNA encoding the NP95 from a lambdagt-11 cDNA expression library, using the Th-10a mAb. Sequencing of the whole 3.5-kb cDNA revealed that NP95 is a novel nuclear protein with an open reading frame (ORF) consisting of 782 amino acids. The ORF contains a zinc finger motif, a potential ATP/GTP binding site, a putative cyclin A/E-cdk2 phosphorylation site, and the retinoblastoma protein (RB)-binding motif "IXCXE". The chromosomal location of Np95 gene was determined by fluorescence in situ hybridization. Np95 gene locates on mouse Chromosome (Chr) 17DE1.1. and rat Chr 9q11.2-q12.1. Np95 was strongly expressed in the testis, spleen, thymus, and lung tissues, but not in the brain, liver, or skeletal muscles. These results collectively implicate this novel nuclear protein in cell cycle progression and/or DNA replication.
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PMID:Cloning and mapping of Np95 gene which encodes a novel nuclear protein associated with cell proliferation. 988 Jun 73

We have identified a novel human protein, PRC1, that is involved in cytokinesis. PRC1 is a good substrate for several CDKs in vitro and is phosphorylated in vivo at sites that are phosphorylated by CDK in vitro, strongly suggesting that PRC1 is an in vivo CDK substrate. PRC1 has sequence homology to the budding yeast anaphase spindle elongation factor Ase1p. Like Ase1p, PRC1 protein levels are high during S and G2/M and drop dramatically after cells exit mitosis and enter G1. PRC1 is a nuclear protein in interphase, becomes associated with mitotic spindles in a highly dynamic manner during mitosis, and localizes to the cell mid-body during cytokinesis. Microinjection of anti-PRC1 antibodies into HeLa cells blocked cellular cleavage, but not nuclear division, indicating a functional role for PRC1 in the process of cytokinesis.
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PMID:PRC1: a human mitotic spindle-associated CDK substrate protein required for cytokinesis. 988 75

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