Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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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)
Etoposide is a
topoisomerase
II inhibitor that induces DNA cleavable complex and has been used as an antitumor drug. We isolated two genes that were transcriptionally suppressed at an early stage of incubation in etoposide-treated RVC lymphoma cells, using modified PCR-based subtractive hybridization. Sequencing revealed that one of these genes, which was approximately 1.7 kb and which encoded a protein of 320 amino acids, was identical to hnRNP A1. The other was a
novel gene
of about 2.2 kb encoding a protein of 469 amino acids. These genes were also down-regulated in the cells incubated with camptothecin, a topoisomerase I inhibitor that induces DNA single strand breaks, but not in those exposed to ICRF-154, a
topoisomerase
II inhibitor that does not induce DNA cleavable complex formation. These results suggest that the early down-regulation of these genes contributes to the cytotoxicity of the
topoisomerase
inhibitors that induce DNA cleavage.
...
PMID:Molecular cloning of the genes suppressed in RVC lymphoma cells by topoisomerase inhibitors. 891 29
DNA topoisomerase II is a nuclear enzyme that modulates DNA topology during several metabolic processes and is the target of several antitumor drugs. The primary effect of anticancer agents is to induce apoptosis. The present study showed that etoposide, a
topoisomerase
II inhibitor which forms cleavable complexes, induced apoptosis in nonproliferative thymocytes and proliferative RVC cells, whereas ICRF-154, a bis(2,6-dioxopiperazine) derivative which does not form a cleavable complex, induced apoptosis only in thymocytes. Both etoposide and ICRF-154 inhibited
topoisomerase
II activity in thymocytes and RVC cells to a similar extent. Etoposide had no effect on the cell cycle of RVC cells, but ICRF-154 induced cell cycle arrest at the G2/M stage followed by cell death without forming a DNA ladder on an agarose gel. Incubation with ICRF-154 reduced the expression of
topoisomerase
IIa in thymocytes and IIb in RVC cells. These findings suggest that the catalytic inhibitor, ICRF-154, has a mechanism of cytotoxicity which differs from that of etoposide. In RVC cells exposed to etoposide, we identified two clones that were suppressed early in the incubation. One was highly homologous to hnRNP A1 which modulates splicing of selected transcripts or stabilizes mRNAs. The other was a
novel gene
of which the function remains unknown. These genes were also altered in RVC cells exposed to camptothecin, which underwent apoptosis, but not in those incubated with ICRF-154, indicating that the suppression of these genes is related to inhibitor-induced DNA breaks resulting in apoptosis. In thymocytes, however, a cleavable complex by
topoisomerase
II inhibitors is not essential for the induction of apoptosis, since it was induced by ICRF-154. This suggests that tissue-specific nuclear matrix proteins other than
topoisomerase
II, including SATP-1 in the thymus, should also be considered. The present findings also suggest that bis(2,6-dioxopiperazine) derivatives are useful agents with which to study the role of
topoisomerase
II in the regulation of gene expression as well as the role of the nuclear matrix.
...
PMID:Topoisomerase II inhibitor-induced apoptosis in thymocytes and lymphoma cells. 938 84
Eukaryotic DNA topoisomerase III was first identified by studying the hyper-recombination and slow growth phenotypes of yeast mutants. Topoisomerase III interacts with DNA helicase SGS1 and the two proteins are involved in DNA recombination, cellular aging and maintenance of genome stability. A human homolog of
topoisomerase
III has previously been identified. Here we report the identification of cDNAs and the determination of gene structure for a second human
topoisomerase
III gene. This
novel gene
expresses three alternatively spliced transcripts, which encode gene products different in the putative DNA-binding C-termini. The largest gene product of the novel
topoisomerase
III was expressed and shown to interact with SGS1 protein and partially rescue the slow growth defect of a yeast
topoisomerase
III mutant. The presence of more than one human
topoisomerase
III is reminiscent of mammalian
topoisomerase
II, which has two genetically distinct isoforms with different expression patterns and probably different functions in mammalian cells.
...
PMID:A new human topoisomerase III that interacts with SGS1 protein. 992 31
The mixed lineage leukemia (MLL) gene located at chromosome band 11q23 is frequently rearranged in patients with therapy-related acute monocytic leukemia who received
topoisomerase
II inhibitors. We have identified a novel fusion partner of MLL (FAB M5b) in a patient who developed t-AML 9 years after treatment for acute lymphoblastic leukemia (ALL). The leukemic cells had a sole karyotypic abnormality of t(3;11) (p21;q23). Screening of a genomic DNA library, prepared from leukemic cell DNA, identified rearranged clones composed of MLL and a
novel gene
on chromosome 3p21 (AF3p21). The AF3p21 gene encodes a protein of 722 amino acids, which contains an Src homology 3 (SH3) domain, a proline-rich domain, and a bipartite nuclear localizing signal (NLS). RNA analysis demonstrated that exon 6 of the MLL gene fused to exon 2 of the AF3p21 gene. The resulting chimeric protein consists of AT-hooks, methyltransferase, and transcription repressor domains of MLL in addition to the AF3p21 proline-rich domain and NLS but not the AF3p21 SH3 domain.
...
PMID:Novel SH3 protein encoded by the AF3p21 gene is fused to the mixed lineage leukemia protein in a therapy-related leukemia with t(3;11) (p21;q23). 1064 23
