Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P62988 (Ubiquitin)
 4,326 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ubiquitin (Ub) carboxyl-terminal hydrolase (E) catalyzes the hydrolysis, at the Ub-carboxyl terminus, of a wide variety of C-terminal Ub derivatives. We show that the enzyme is inactivated by millimolar concentrations of either sodium borohydride or hydroxylamine, but only if Ub is present. We have interpreted these results on the assumption that the hydrolase mechanism is one of nucleophilic catalysis with an acyl-Ub-E intermediate. The borohydride-inactivated enzyme has the following properties. It is a stoichiometric complex of E and Ub containing tritium from sodium boro[3H]hydride. This complex is stable at neutral pH in 5 M urea and can be isolated on the basis of size on a sieving column, but a labeled product the size of Ub is released under more strongly denaturing conditions. The "Ub" released in acid is Ub-carboxyl-terminal aldehyde, based on the observations that: it contains the tritium present in the reduced complex and it is able to form the inactive enzyme from a stoichiometric amount of fresh enzyme, and inactivation is accompanied by E-Ub adduct formation; it has chemical properties expected of an aldehyde: after a second reduction of the Ub released with boro[3H]hydride and complete acid hydrolysis, tritium counts are found in ethanolamine (the carboxyl-terminal residue of Ub is glycine). These results suggest that enzyme and Ub combine in an equilibrium reaction to form an ester or thiol ester adduct (at the Ub-carboxyl terminus), and that this adduct is trapped by borohydride to give a very stable inactive E-Ub (thio) hemiacetal which is unable to undergo a second reduction step and which can release Ub-aldehyde in mild acid. Inactivation in the presence of hydroxylamine of hydrolase occurs once during hydrolysis of 1200 molecules of Ub-hydroxamate by the enzyme. The hydrolysis/inactivation ratio is constant over the range of 10-50 mM hydroxylamine showing that forms of E-Ub with which hydroxylamine and water react are different and not in rapid equilibrium. The inactive enzyme may be an acylhydroxamate formed from an E-Ub mixed anhydride generated from the E-Ub (thiol) ester inferred from the borohydride study. A direct radioactive assay for the hydrolase has been developed using the Ub-C-terminal amide of [3H]butanol-4-amine as substrate.
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PMID:Mechanism of ubiquitin carboxyl-terminal hydrolase. Borohydride and hydroxylamine inactivate in the presence of ubiquitin. 301 23

In order to clarify the onset mechanisms of drug-induced allergies, three fluorescent-labelled compounds were synthesized by subjecting sulfanilamide (SA), a base compound for sulfonamides, and its active metabolites, i.e. sulfanilamide hydroxylamine and sulfanilamide nitroso, to dansylation using dansylchloride. In other words, 5-dimethylamino-N-(4-aminobenzyl)-naphthalenesulfonamide (DNS-4ABA), 5-dimethylamino-N-(4-hydroxylaminobenzyl)-1-naphthalenesulfonamide (DNS-4HABA) and 5-dimethylamino-N-(4-nitrosobenzyl)-1-naphthalenesulfonamide (DNS-4NSBA) were synthesized as model haptens. When analysed by HPLC, a conjugate of DNS-4HABA and glutathione (GSH) with nucleophilic amino acids had two peaks (P-1 and P-2). FAB-MS and 1H-NMR revealed that the DNS-4HABA-GSH conjugate consisted of sulphinamide and semimercaptal. The reactivity of GSH to DNS-4ABA, DNS-4HABA and DNS-4NSBA was quantified by HPLC using an oxidization system (horseradish peroxidase/H2O2). The results show that production of DNS-4NSBA-GSH-conjugate was four to eight times higher than that of DNS-4HABA-GSH conjugate, but that DNS-4ABA did not bind with GSH. Skin reactions were assessed using guinea pigs, and strong delayed erythema was seen with DNS-4NSBA, which bound most strongly with GSH, whereas weak delayed erythema was seen with DNS-4ABA, which did not bind with GSH. This suggests a correlation between GSH conjugate production and skin reactions. DNS-4HABA enzymatically bound with proteins in rat and guinea pig liver cytosol and microsomal fractions. The proteins that bound to DNS-4HABA were purified by HPLC and then subjected to N-terminal amino acid analysis. Ubiquitin (10 kDa) and fatty acid binding protein (30 kDa) were detected in the rat liver cytosol fraction; retinol-dehydrogenase (35 kDa) in the rat microsomal fraction; and glutathione-S-transferase B (mmu) (25 kDa) in the guinea pig liver cytosol fraction. When DNS-4HABA or DNS-4NSBA binds to proteins that play important roles in the body, unexpected adverse reactions may occur. Furthermore, by utilizing our technique using model compounds, it may be possible to identify the carrier proteins of various compounds, including pharmaceutical agents.
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PMID:Antigenicity of sulfanilamide and its metabolites using fluorescent-labelled compounds. 1630 84

The linear ubiquitin assembly complex (LUBAC) comprises 3 components: HOIP, HOIL-1, and Sharpin, of which HOIP and HOIL-1 are both members of the RBR subfamily of E3 ubiquitin ligases. HOIP catalyses the formation of Met1-linked ubiquitin oligomers (also called linear ubiquitin), but the function of the E3 ligase activity of HOIL-1 is unknown. Here, we report that HOIL-1 is an atypical E3 ligase that forms oxyester bonds between the C terminus of ubiquitin and serine and threonine residues in its substrates. Exploiting the sensitivity of HOIL-1-generated oxyester bonds to cleavage by hydroxylamine, and macrophages from knock-in mice expressing the E3 ligase-inactive HOIL-1[C458S] mutant, we identify IRAK1, IRAK2, and MyD88 as physiological substrates of the HOIL-1 E3 ligase during Toll-like receptor signaling. HOIL-1 is a monoubiquitylating E3 ubiquitin ligase that initiates the de novo synthesis of polyubiquitin chains that are attached to these proteins in macrophages. HOIL-1 also catalyses its own monoubiquitylation in cells and most probably the monoubiquitylation of Sharpin, in which ubiquitin is also attached by an oxyester bond. Our study establishes that oxyester-linked ubiquitylation is used as an intracellular signaling mechanism.
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PMID:The E3 ligase HOIL-1 catalyses ester bond formation between ubiquitin and components of the Myddosome in mammalian cells. 3120 50