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Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nucleolin [
C23
or 100 kilodaltons (kDa)] is the major nucleolar phosphorylated protein in exponentially growing Chinese hamster ovary cells. A nucleolar cyclic nucleotide independent protein kinase copurified with
nucleolin
in a complex which could be dissociated by hydroxyapatite chromatography. The kinase was stimulated by spermine and inhibited by heparin and presented most of the properties of nuclear casein kinase NII. Kinetic analyses showed the apparent Km value for
nucleolin
(7 X 10(-4) mg/mL) to be lower than those for other casein kinase II substrates such as nuclear protein HMG 14 (0.15 mg/mL), topoisomerase I (0.025 mg/mL), or
topoisomerase
II (0.04 mg/mL). Similarly, Vmax values were higher for
nucleolin
than for other substrates. Nucleolin thus appears to be a natural preferential substrate of nucleolar casein kinase NII. The kinase phosphorylated
nucleolin
in vitro at serine residues in a 29-kDa CNBr fragment located near the amino terminus of the molecule. The enzyme labeled typical casein kinase II sites. These sites were found predominantly in two highly acidic tryptic fragments designated A (residues 21-49) and C (residues 180-221) which contained serines having at least two acidic residues on their carboxyl-terminal sides. These results demonstrate the existence in the nucleolus of a type of NII protein kinase that uses a protein involved in ribosome assembly as preferential substrate.
...
PMID:Phosphorylation of nucleolin by a nucleolar type NII protein kinase. 342 11
Residual nuclear matrices can be successfully obtained from isolated nuclei of different monocot and dicot plant species using either high ionic or low ionic extraction protocols. The protein composition of isolated nuclear matrices depends on the details of isolation protocols. They are stable and present in all cases, a tripartite organization with a lamina, nucleolar matrix, and internal matrix network, and also maintain some of the basic architectural features of intact nuclei. In situ preparations demonstrate the continuity between the nuclear matrix and the plant cytoskeleton. Two-dimensional separation of isolated plant nuclear matrix proteins reveals a heterogeneous polypeptide composition corresponding rather to a complex multicomponent matrix than to a simple nucleoskeletal structure. Immunological identification of some plant nuclear matrix components such as A and B type lamins,
topoisomerase
II, and some components of the transcription and splicing machineries, internal intermediate filament proteins, and also specific nucleolar proteins like fibrillarin and
nucleolin
, which associate to specific matrix domains, establish a model of organization for the plant nuclear matrix similar to that of other eukaryotes. Components of the transcription, processing, and DNA-anchoring complexes are associated with a very stable nucleoskeleton. The plant matrix-attached regions share structural and functional characteristics with those of insects, vertebrates, and yeast, and some of them are active in animal cells. In conclusion, the available data support the view that the plant nuclear matrix is basically similar in animal and plant systems, and has been evolutionarily conserved in eukaryotes.
...
PMID:Nuclear matrix isolated from plant cells. 855 94
DNA topoisomerase I (topo I) is involved in the regulation of DNA supercoiling, gene transcription, and rDNA recombination. However, little is known about interactions between topo I and other nuclear proteins. We used affinity chromatography with a topo I fusion protein to screen U-937 leukemic cell extracts and have identified
nucleolin
as a topo I-binding protein. Coimmunoprecipitation and other studies demonstrate that the interaction between topo I and
nucleolin
is direct. Furthermore, deletion analyses have identified the 166-210-amino acid region of topo I as sufficient for the interaction with
nucleolin
. Since
nucleolin
has been implicated in nuclear transport and in a variety of transcriptional processes, the interaction with topo I may relate to the cellular localization of topo I or to the known role of this
topoisomerase
in transcription.
...
PMID:Identification of a nucleolin binding site in human topoisomerase I. 856 49
We have attempted to identify human topoisomerase I-binding proteins in order to gain information regarding the cellular roles of this protein and the cytotoxic mechanisms of the anticancer drug camptothecin, which specifically targets topoisomerase I. In the course of this work we identified an interaction between the N-terminus of human topoisomerase I and the SV40 T antigen that is detectable in vitro using both affinity chromatography and co-immunoprecipitation. Additional results indicate that this interaction does not require intermediary DNA or stoichiometric quantities of other proteins. Furthermore, the interaction is detectable in vivo using a yeast two-hybrid assay. Two binding sites for T antigen are apparent on the topoisomerase I protein: one consisting of amino acids 1-139, the other present in the 383-765 region of the protein. Interestingly,
nucleolin
, which binds the 166-210 region of topoisomerase I, is able to bind an N-terminal fragment of topoisomerase I concurrently with T antigen. Taken together with our prior identification of
nucleolin
as a topoisomerase I-binding protein, the current results suggest that helicase-binding is a major role of the N-terminus of human topoisomerase I and that the resultant helicase-
topoisomerase
complex may function as a eukaryotic gyrase.
...
PMID:Interaction between the N-terminus of human topoisomerase I and SV40 large T antigen. 951 61
These studies indicate that SV40T antigen binds the amino terminus of human top1 both in vitro and in vivo. Additional in vitro data suggest that the interaction between these two proteins does not require DNA as an intermediary. Taken together with the finding that the amino terminus of top 1 binds the putative helicase
nucleolin
, these results implicate helicase binding as a general function of the amino terminus of human top1. Binding of top1 by helicases may be important in the management of structural alterations in DNA produced by helicases. The potential importance of helicase-
topoisomerase
interactions has been highlighted by recent data indicating that the protein defective in Bloom's syndrome is a helicase with a yeast homologue that is known to bind topoisomerases.
...
PMID:A role for the amino terminus of human topoisomerase I. 976 57
We have characterized the nuclear matrix-intermediate filament fraction from control and apoptotic HL-60 cells. Apoptosis was induced by exposure to the topoisomerase I inhibitor, camptothecin. By means of two-dimensional polyacrylamide gel electrophoresis, striking qualitative and quantitative differences were seen in the protein composition of the nuclear matrix-intermediate filament fraction obtained from apoptotic cells in comparison with controls. Western blotting analysis of apoptotic nuclear matrix proteins revealed degradation of some (
topoisomerase
IIalpha, SAF-A) but not other (SATB1 and
nucleolin
) components. Moreover, immunofluorescent staining for typical matrix antigens (NuMA protein, lamin B, SC-35) showed that in 35-40% of the structures prepared from apoptotic samples, marked changes in the subnuclear distribution of these proteins were present. Striking morphological differences between control and apoptotic samples were also detected at the ultrastructural level. These results demonstrate that both biochemical and morphological changes can be detected in the nuclear matrix prepared from apoptotic HL-60 cells.
...
PMID:Biochemical and morphological characterization of the nuclear matrix from apoptotic HL-60 cells. 1002 65
DNA topoisomerases catalyze changes in the topology of DNA. Recently, other functions have also been reported for these enzymes. For example, topoisomerase I participates in transcription by RNA polymerases I, II, and III, and also has a kinase activity. Topoisomerase I binds directly to at least two helicases,
nucleolin
and SV40 T antigen, and mechanistic studies show that T antigen alters the function of topoisomerase I. Additional protein and nucleotide interactions for both topoisomerases I and II suggest that each protein is multifunctional. It may be that the multifunctional nature of these enzymes is the basis for the antitumor activity seen with inhibitors of these enzymes. Clinical trials with combinations of CPT-11 and 5-fluorouracil for the treatment of colon cancer, and preclinical studies with CPT-11 and vincristine are particularly encouraging. Protracted schedules of administration of
topoisomerase
inhibitors will likely have greater antitumor effect than more concentrated, higher dose exposures, but a systematic determination of optimal schedules of administration is needed.
...
PMID:Topoisomerase enzymes as drug targets. 1055 12
Nucleolin functions in ribosome biogenesis and contains an acidic N terminus that binds nuclear localization sequences. In previous work we showed that human
nucleolin
associates with the N-terminal region of human topoisomerase I (Top1). We have now mapped the topoisomerase I interaction domain of
nucleolin
to the N-terminal 225 amino acids. We also show that the Saccharomyces cerevisiae
nucleolin
ortholog, Nsr1p, physically interacts with yeast topoisomerase I, yTop1p. Studies of isogenic NSR1(+) and Deltansr1 strains indicate that NSR1 is important in determining the cellular localization of yTop1p. Moreover, deletion of NSR1 reduces sensitivity to camptothecin, an antineoplastic topoisomerase I inhibitor. By contrast, Deltansr1 cells are hypersensitive to the
topoisomerase
II-targeting drug amsacrine. These findings indicate that
nucleolin
/Nsr1 is involved in the cellular localization of Top1 and that this localization may be important in determining sensitivity to drugs that target topoisomerases.
...
PMID:Role for nucleolin/Nsr1 in the cellular localization of topoisomerase I. 1096 21
Cell death in eukaryotes can occur by either apoptosis or necrosis. Apoptosis is characterized by well-defined nuclear changes which are thought to be the consequence of both proteolysis and DNA fragmentation. On the other hand, the nuclear modifications that occur during necrosis are largely less known. Here, we have investigated whether or not nuclear modifications occur during ethanol-induced necrotic cell death of HL-60 cells. By means of immunofluorescence staining, we demonstrate that the patterns given by antibodies directed against some nuclear proteins (lamin B1, NuMA,
topoisomerase
IIalpha, SC-35, B23/nucleophosmin) changed in necrotic cells. The changes in the spatial distribution of NuMA strongly resembled those described to occur during apoptosis. On the contrary, the fluorescent pattern characteristic for other nuclear proteins (
C23
/
nucleolin
, UBF, fibrillarin, RNA polymerase I) did not change during necrosis. By immunoblotting analysis, we observed that some nuclear proteins (SAF-A, SATB1, NuMA) were cleaved during necrosis, and in the case of SATB1, the apoptotic signature fragment of 70 kDa was also present to the same extent in necrotic samples. Caspase inhibitors did not prevent proteolytic cleavage of the aforementioned polypeptides during necrosis, while they were effective if apoptosis was induced. In contrast, lamin B1 and
topoisomerase
IIalpha were uncleaved in necrotic cells, whereas they were proteolyzed during apoptosis. Transmission electron microscopy analysis revealed that slight morphological changes were present in the nuclear matrix fraction prepared from necrotic cells. However, these modifications (mainly consisting of a rarefaction of the inner fibrogranular network) were not as striking as those we have previously described in apoptotic HL-60 cells. Taken together, our results indicate that during necrosis marked biochemical and morphological changes do occur at the nuclear level. These alterations are quite distinct from those known to take place during apoptosis. Our results identify additional biochemical and morphological criteria that could be used to discriminate between the two types of cell death. J. Cell. Biochem. Suppl. 36: 19-31, 2001.
...
PMID:Nuclear changes in necrotic HL-60 cells. 1145 67
The nonconserved, hydrophilic N-terminal domain of eukaryotic DNA topoisomerase I (topo I) is dispensable for catalytic activity in vitro but essential in vivo. There are at least five putative nuclear localization signals and a
nucleolin
-binding signal within the first 215 residues of the topo I N-terminal domain. We have investigated physiological functions of the topo I N-terminal domain by fusing it to an enhanced green fluorescent protein (EGFP). The first 170 residues of the N-terminal domain allow efficient import of chimeric proteins into nuclei and nucleoli. The nucleolar localization of this protein does not depend on its interaction with
nucleolin
, whereas ongoing rDNA transcription clearly is crucial. Immunoprecipitation experiments reveal that the topo I N terminus (topoIN)-EGFP fusion protein associates with the TATA-binding protein in cells. Furthermore, DNA damage results in extensive nuclear redistribution of the topoIN-EGFP chimeric product. The redistribution is also p53-dependent and the N terminus of topo I appears to interact with p53 in vivo. These results show that the topo I localization to the nucleolus is related to the p53 and DNA damage, as well as changes in transcriptional status. Nucleolar release of topo I under conditions of cellular duress may represent an important, antecedent step in tumor cell killing by
topoisomerase
active agents.
...
PMID:Subnuclear distribution of topoisomerase I is linked to ongoing transcription and p53 status. 1180 86
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