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Query: UNIPROT:P62988 (
Ubiquitin
)
4,326
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ubiquitin
/26S proteasome-dependent degradation of
topoisomerase I
(TOP1) has been suggested to be a unique repair response to TOP1-mediated DNA damage. In the current study, we show that treatment of mammalian cells or yeast cells expressing human DNA TOP1 with camptothecin (CPT) induces covalent modification of the TOP1 by SUMO-1/Smt3p, a ubiquitin-like protein. This conclusion is based on the following observations: (i) Mammalian DNA TOP1 conjugates induced by CPT were cross-reactive with SUMO-1/Smt3p-specific antibodies both in yeast expressing human DNA TOP1 as well as mammalian cells. (ii) The formation of TOP1 conjugates was shown to be dependent on UBC9, the E2 enzyme for SUMO-1/Smt3p. (iii) TOP1 physically interacts with UBC9. (iv) Ubc9 mutant yeast cells expressing human DNA TOP1 was hypersensitive to CPT, suggesting that UBC9/SUMO-1 may be involved in the repair of TOP1-mediated DNA damage.
...
PMID:SUMO-1 conjugation to topoisomerase I: A possible repair response to topoisomerase-mediated DNA damage. 1075 68
Reversible
topoisomerase I
(Top1)-DNA cleavage complexes are the key DNA lesion induced by anticancer camptothecins (e.g. topotecan and irinotecan) as well as structurally perturbed DNAs (e.g. oxidatively damaged DNA, UV-irradiated DNA, alkylated DNA, uracil-substituted DNA, mismatched DNA, gapped and nicked DNA, and DNA with abasic sites). Top1 cleavage complexes arrest transcription and trigger transcription-dependent degradation of Top1, a phenomenon termed Top1 down-regulation. In the current study, we have investigated the role of Top1 down-regulation in the repair of Top1 cleavage complexes. Using quiescent (serum-starved) human WI-38 cells, camptothecin (CPT) was shown to induce Top1 down-regulation, which paralleled the induction of DNA single-strand breaks (SSBs) (assayed by comet assays) and ATM autophosphorylation (at Ser-1981). Interestingly, Top1 down-regulation, induction of DNA SSBs and ATM autophosphorylation were all abolished by the proteasome inhibitor MG132. Furthermore, studies using immunoprecipitation and dominant-negative ubiquitin mutants have suggested a specific requirement for the assembly of Lys-48-linked
polyubiquitin
chains for CPT-induced Top1 down-regulation. In contrast to the effect of proteasome inhibition, inactivation of PARP1 was shown to increase the amount of CPT-induced SSBs and the level of ATM autophosphorylation. Together, these results support a model in which Top1 cleavage complexes arrest transcription and activate a ubiquitin-proteasome pathway leading to the degradation of Top1 cleavage complexes. Degradation of Top1 cleavage complexes results in the exposure of Top1-concealed SSBs for repair through a PARP1-dependent process.
...
PMID:A ubiquitin-proteasome pathway for the repair of topoisomerase I-DNA covalent complexes. 1851 98
Camptothecins kill mammalian cells by stabilizing
topoisomerase I
-DNA strand passing intermediates that are converted to lethal double strand DNA breaks in DNA replication fork collisions. Camptothecin-stabilized
topoisomerase I
-DNA cleavage intermediates in mammalian cells are uniquely modified by ubiquitin-family proteins. The structure, composition, and function of these ubiquitin-family modifications are poorly understood. We have used capillary liquid chromatography-nanospray tandem mass spectrometry to analyze the endogenous ubiquitin-family modifications of
topoisomerase I
purified from camptothecin-stabilized
topoisomerase I
-DNA cleavage complexes in human breast cancer cells. Peptides shared by SUMO-2 and SUMO-3 were abundant, and a peptide unique to SUMO-2 was identified.
Ubiquitin
was also identified in these complexes. No SUMO-1 peptide was detected in human
topoisomerase I
-DNA cleavage complexes. Identical experiments with purified SUMO paralogues showed that SUMO-1 was well digested by our protocol and that fragments were easily analyzed by LC-MS/MS. Spiking experiments with purified SUMO paralogues determined that we could detect as little as 0.5 SUMO-1 residue per
topoisomerase I
molecule. These results indicate that SUMO-1 is below this detection level and that SUMO-2 or a mixture of SUMO-2 and SUMO-3 predominates. SUMO-1 capping seems unlikely to be limiting the growth of SUMO-2/3 chains formed on camptothecin-stabilized
topoisomerase I
-DNA cleavage complexes.
...
PMID:Ubiquitin-family modifications of topoisomerase I in camptothecin-treated human breast cancer cells. 1923 54
Reversible
topoisomerase I
(Top1)-DNA cleavage complexes are the key DNA lesion induced by anticancer camptothecins (CPTs) (e.g. topotecan and irinotecan) as well as structurally perturbed DNAs (e.g. oxidatively damaged, UV-irradiated, or alkylated DNA). It has been proposed that Top1 cleavage complexes arrest advancing replication forks, triggering the formation of DNA double strand breaks (DSBs) because of replication fork runoff at the Top1 cleavage complex sites on the leading strand. In this study, we show that the formation of replication-dependent DSBs requires the ubiquitin-proteasome pathway in CPT-treated cells. First, the proteasome inhibitor MG-132 specifically inhibited CPT-induced but not ionizing radiation- or hydroxyurea-induced DSBs as revealed by both the neutral comet assay and measurements of the specific DNA damage signals (e.g. gamma-H2AX, phosphorylated ataxia telangiectasia mutated (Ser-1981), and phosphorylated Chk2 (Ser-33/35)) that are characteristic for DSBs. Knocking down the 20 S proteasome maturation protein also supported the requirement of the proteasome activity for CPT-induced DSBs. Second, CPT-induced DSB signals were shown to require ubiquitin, ubiquitin-activating enzyme (E1), a CUL-3-based ubiquitin ligase (E3), and the formation of Lys-48-linked
polyubiquitin
chains on Top1. Third, immunocytochemical studies revealed that the CPT-induced formation of gamma-H2AX foci occurred at the replication forks and was attenuated by co-treatment with the proteasome inhibitor MG-132. In the aggregate, these results support a replication fork collision model in which Top1 cleavage complexes at the arrested replication forks are degraded by proteasome prior to replication fork runoff on the leading strand to generate DSBs.
...
PMID:Proteasome-dependent processing of topoisomerase I-DNA adducts into DNA double strand breaks at arrested replication forks. 1966 69
