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Mechanism of ubiquitin conjugating enzyme E2-230K: catalysis involving a thiol relay?

Biochemistry. 1996 Feb 6;35(5):1664-71
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摘要


Covalent conjugation of ubiquitin to intracellular proteins is a signal for degradation by the 26S protease. Conjugation is usually accomplished by the sequential action of activating (E1), conjugating (E2), and ligase (E3) enzymes. Each of these enzymes forms a covalent thiol ester with ubiquitin as part of its catalytic cycle. In most cases, the apparent role of the ubiquitin conjugating enzyme (E2) is to transfer ubiquitin from the E1 active site to the E3 active site. Ubiquitin is then delivered from E3 to the substrate lysine residue. An unusually large, reticulocyte-specific enzyme, known as E2-230K, is unique among the large family of E2 enzymes is being susceptible to inhibition by inorganic arsenite [Klemperer et al. (1989) Biochemistry 28, 6035-6041]. We show that phenylarsenoxides potently inhibit E2-230K, apparently by binding to vicinal Cys residues of the enzyme: bound aminophenylarsenoxide partially protects the enzyme against inactivation by N-ethylmalemide (NEM), and prior enzyme inactivation with NEM blocks enzyme binding to immobilized phenylarsenoxide. Studies on the mechanistic basis of inhibition showed that a concentration of (aminophenyl)arsenoxide that produced complete inhibition of steady-state turnover had no effect on the turnover of the preformed E2-ubiquitin adduct. However, when the enzyme was preincubated with this concentration of inhibitor prior to initiation of adduct formation, the level of E2-associated ubiquitin was reduced by 60%. These results are consistent with a model in which two Cys residues of the enzyme sequentially form thiol esters with ubiquitin and the second of these Cys residues is bound to arsenic in the enzyme-inhibitor complex. In this model, E2-230K functions as an E2-E3 hybrid.

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