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Target Concepts:
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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)
We examined the expression of the genes encoding topoisomerases I and II and those associated with V(D)J [variable(diversity)joining] recombination in two human T-cell acute lymphoblastic leukemia (T.ALL) cell lines, CEM and CEM/DOX. In CEM/DOX cells, which are resistant to doxorubicin, the topoisomerase I gene was found to be 4-fold overexpressed and nuclear topoisomerase I relaxation activity was 2-fold greater in CEM/DOX than in CEM cells. Furthermore, the cleavable complex reaction induced by camptothecin, a specific topoisomerase I inhibitor, was found to be 2.5-increased in the presence of topoisomerase I extracted from CEM/DOX, in comparison to that in CEM cells. Conversely, the
topoisomerase
II mRNA levels, nuclear decatenation activities and (mAMSA) 4'(9-acridinylamino)methanesulfon-m-anisidide-induced cleavable complex formation in CEM/DOX were similar to those of the doxorubicin-sensitive cells. The results indicate that topoisomerase I activity is elevated in CEM/DOX cells. Nevertheless, CEM/DOX cells were 11-fold more resistant to camptothecin than were CEM cells, and cross-resistance to camptothecin was not reversed by verapamil. Furthermore, using an intact cell assay for DNA-protein complexes, we found that camptothecin-stimulated cleavable complexes formed in CEM/DOX cells were increased in correlation with the elevated topoisomerase I activity. These results suggest that camptothecin resistance in CEM/DOX cells is due to different mechanism(s) than
topoisomerase
- or P-glycoprotein-associated multidrug resistance. The recombination activating gene, RAG1, which is one of the components of the site-specific V(D)J recombination complex, was 20-fold overexpressed in CEM/DOX cells. In contrast, RAG2 and T160 gene transcripts, other components of the V(D)J complex, were at best poorly detected in both sensitive and resistant cells. No specific V(D)J recombinase activity was found in CEM or CEM/DOX cells when the pJH201 transfection assay was used. The results indicate that CEM/DOX cells failed to generate V(D)J recombination although RAG1 gene is overexpressed. The mechanism of the RAG1 gene activation was not gene amplification, and no rearrangement was detected in the RAG1 gene locus. RAG1 presents homology with the yeast gene
HPR1
, itself homologous to yeast topoisomerase I and responsible for the control of recombination in somatic cells. Since DNA topoisomerases are themselves involved in the control of DNA topology, recombination and DNA repair, the possible coactivation of RAG1 and topoisomerase I genes in CEM/DOX cells is discussed.
...
PMID:Altered topoisomerase I activity and recombination activating gene expression in a human leukemia cell line resistant to doxorubicin. 839 37
Despite evidence that DNA topoisomerase I is required to relieve torsional stress during DNA replication and transcription, yeast strains with a top1 null mutation are viable and display no gross defects in DNA or RNA synthesis, possibly because other proteins provide overlapping functions. We isolated mutants whose inviablility or growth defect is relieved when TOP1 is expressed [trf mutants (
topoisomerase
one-requiring function)]. The TRF genes define at least four complementation groups. TRF3 is allelic to TOP2. TRF1 is allelic to
HPR1
, previously shown to be homologous to TOP1 over two short regions. TRF4 encodes a novel 584-amino acid protein with homology to the N-terminus of Saccharomyces cerevisiae topo I. Like top1 mutants, trf4 mutants have elevated rDNA recombination and fail to shut off RNA polymerase II transcription in stationary phase. trf4 null mutants are cs for viability, display reduced expression of GAL1 and Cell Cycle Box UAS::LacZ fusions, and are inviable in combination with trfI null mutants, indicating that both proteins may share a common function with DNA topoisomerase I. The existence of multiple TRF complementation groups suggests that not all biological functions of topo I can be carried out by topo II.
...
PMID:Isolation of mutants of Saccharomyces cerevisiae requiring DNA topoisomerase I. 864 85
