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Query: EC:6.3.2.19 (
ubiquitin-protein ligase
)
799
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this study, we investigated the role of ubiquitination in the disposition of the inactivated O6-methylguanine-DNA methyltransferase (MGMT) protein in human (HT-29 and CEM) and murine (ts85) tumor cells. Using a combination of immunoprecipitation and immunoblotting techniques with antibodies against ubiquitin and MGMT, and anti-ubiquitin immunoaffinity chromatography, the MGMT protein was found to coexist with small amounts of its ubiquitinated species in both human and mouse tumor cells, suggesting the presence of endogenous inactivated MGMT. Further, treatment of HT-29 and CEM cells with MGMT-inactivating compounds, O6-benzylguanine (O6-BG, 20 microM) or 1,3-bis(chloroethyl)-1-nitrosourea (BCNU, 100 microM), resulted in increased levels of ubiquitinated MGMT within 1.5-3 h of drug exposure. Kinetic studies in HT-29 cells treated with O6-BG indicated a slow and gradual conversion of the inactivated MGMT to its polyubiquitinated forms over a course of 3-18 h, with a concomitant disappearance of the parent MGMT protein. We also characterized the previously reported O6-BG-induced degradation of MGMT in HT-29 cell extracts [Pegg et al. (1991) Carcinogenesis 12, 1679-1683] and showed the extracts to be active in conjugation of the MGMT protein with ubiquitin. The proteolysis of O6-BG-inactivated MGMT in HT-29 cell extracts was energy-dependent and was markedly stimulated by ATP and
Mg2+
ions. Using the ts85 temperature-sensitive mutant cell line, which expresses a thermolabile
ubiquitin-activating enzyme
, we observed a differential stability of the inactivated MGMT protein at permissive and nonpermissive temperatures. These results provide conclusive evidence that the MGMT protein, following its inactivation, is degraded via the ubiquitin proteolytic pathway.
...
PMID:Ubiquitination-dependent proteolysis of O6-methylguanine-DNA methyltransferase in human and murine tumor cells following inactivation with O6-benzylguanine or 1,3-bis(2-chloroethyl)-1-nitrosourea. 857 90
Ubiquitin-calmodulin ligase (uCaM synthetase: EC 6.3.2.21), which has been detected in all tissues so far examined, catalyzes the Ca2+-dependent reversible synthesis of ubiquityl-calmodulin which is not directed to degradation by the ATP-dependent 26-S protease [Laub, M. & Jennissen, H. P. (1997) Biochim. Biophys. Acta 1357, 173-191]. As has been shown in the preceding paper in this journal, the uCaM synthetase holosystem can be separated into two essential protein components: uCaM Syn-F1, a ubiquitin-binding protein belonging to the
ubiquitin-activating enzyme
family (E1) and uCaM Syn-F2 which bestows the reaction specificity leading to the covalent modification of calmodulin with ubiquitin. UCaM Syn-F2, which binds to calmodulin-Sepharose in a Ca2+-dependent manner, has been purified over 3500-fold in seven steps from rabbit reticulocytes and has a native molecular mass of approximately 620 kDa. It binds calmodulin with a Km of 5 microM and to uCaM Syn-F1, i.e.
ubiquitin-activating enzyme
(E1), with a Km of 3 nM. The maximal specific activity obtained in enriched uCaM Syn-F2 is 6-8 pkat/mg. The pH optimum of uCaM synthetase lies at pH 8.5. In kinetic experiments the Km values for 125I-ubiquitin and ATP/
Mg2+
were determined to be 8 microM and 16 nM, respectively, for the uCaM synthetase holosystem. The existence of a third separable protein component of uCaM synthetase, as is the case in E1, E2, E3 systems, is very unlikely since affinity chromatography on calmodulin-Sepharose, two ion-exchange chromatography steps and finally a gel-filtration step failed to indicate any additional protein component essential for synthetase activity. We therefore propose a two-component model for uCaM synthetase. This model is also supported by simple hyperbolic velocity curves in kinetic experiments based on the variation of these two components. The data suggests that uCaM Syn-F2 is neither an E2 nor an E3 but evidently combines the properties of both, making the Ca2+-dependent uCaM synthetase the member of a group of two-component ubiquitin ligase systems.
...
PMID:The ubiquityl-calmodulin synthetase system from rabbit reticulocytes: isolation of the calmodulin-binding second component and enzymatic properties. 971 92
