Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.5.1.4 (deaminase)
5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mycothiol, 1-D-myo-inosityl-2-(N-acetylcysteinyl)amido-2-deoxy-alpha-D-glucopyranoside (MSH), is composed of N-acetylcysteine (AcCys) amide linked to 1-D-myo-inosityl-2-amino-2-deoxy-alpha-D-glucopyranoside (GlcN-Ins) and is the major thiol produced by most actinomycetes. When Mycobacterium smegmatis was treated with the alkylating agent monobromobimane (mBBr), the cellular mycothiol was converted to its bimane derivative (MSmB). The latter was rapidly cleaved to produce GlcN-Ins and the bimane derivative of N-acetylcysteine (AcCySmB), a mercapturic acid that was rapidly exported from the cells into the medium. The other product of cleavage, GlcN-Ins, was retained in the cell and utilized in the resynthesis of mycothiol. The mycothiol S-conjugate amidase (amidase) responsible for cleaving MSmB was purified to homogeneity from M. smegmatis. A value of K(m) = 95 +/- 8 microM and a value of k(cat) = 8 s(-)(1) was determined for the amidase with MSmB as substrate. Activity with 100 microM mycothiol or with the monobromobimane derivative of 1-D-myo-inosityl-2-(L-cysteinyl)amido-2-deoxy-alpha-D-glucopyra nos ide (CySmB-GlcN-Ins) or of 2-(N-acetyl-L-cysteinyl)amido-2-deoxy-(alpha, beta)-D-glucopyranoside (AcCySmB-GlcN) was at least 10(3) lower than with 100 microM MSmB, demonstrating that the amidase is highly specific for S-conjugates of mycothiol. Conjugates of mycothiol with the antibiotic cerulenin, N-ethylmaleimide, 3-(N-maleimidopropionyl)-biocytin, and 7-diethylamino-3-(4'-maleimidylphenyl)-4-methylcoumarin also exhibited significant activity. The sequence of the amino-terminal 20 residues was determined, and an open reading frame (Rv1082) coding for 288 residues having an identical predicted amino-terminal amino acid sequence was identified in the Mycobacterium tuberculosis genome. The Rv1082 gene (mca) from M. tuberculosis was cloned and expressed in Escherichia coli, and the expressed protein was shown to have substrate specificity similar to the amidase from M. smegmatis. These results indicate that mycothiol and mycothiol S-conjugate amidase play an important role in the detoxification of alkylating agents and antibiotics.
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PMID:A novel mycothiol-dependent detoxification pathway in mycobacteria involving mycothiol S-conjugate amidase. 1097 58

Mycothiol is a novel thiol produced only by actinomycetes and is the major low-molecular-weight thiol in mycobacteria. Mycothiol was previously shown to be synthesized from 1-D-myo-inosityl-2-amino-2-deoxy-alpha-D-glucopyranoside by ligation with cysteine followed by acetylation. A novel mycothiol-dependent detoxification enzyme, mycothiol conjugate amidase, was recently identified in Mycobacterium smegmatis and shown to have a homolog, Rv1082, in Mycobacterium tuberculosis. In the present study we found that a protein encoded by the M. tuberculosis open reading frame Rv1170, a homolog of Rv1082, possesses weak mycothiol conjugate amidase activity but shows substantial deacetylation activity with 1-D-myo-inosityl-2-acetamido-2-deoxy-alpha-D-glucopyranoside (GlcNAc-Ins), a hypothetical mycothiol biosynthetic precursor. The availability of this protein enabled us to develop an assay for GlcNAc-Ins, which was used to demonstrate that GlcNAc-Ins is present in M. smegmatis at a level about twice that of mycothiol. It was shown that GlcNAc-Ins is absent in mycothiol-deficient mutant strain 49 of M. smegmatis and that this strain can concentrate GlcNAc-Ins from the medium and convert it to mycothiol. This demonstrates that GlcNAc-Ins is a key intermediate in the pathway of mycothiol biosynthesis. Assignment of Rv1170 as the gene coding the deacetylase in the M. tuberculosis genome represents the first identification of a gene of the mycothiol biosynthesis pathway. The presence of a large cellular pool of substrate for this enzyme suggests that it may be important in regulating mycothiol biosynthesis.
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PMID:N-Acetyl-1-D-myo-inosityl-2-amino-2-deoxy-alpha-D-glucopyranoside deacetylase (MshB) is a key enzyme in mycothiol biosynthesis. 1109 56

Mycothiol (MSH) is a novel thiol comprised of N-acetylcysteine amide-linked to GlcN-alpha(1-1)-Ins. It is the major thiol in most actinomycetes and is produced at millimolar levels in mycobacteria and streptomycetes. MSH biosynthesis occurs by linkage of GlcNAc to Ins, deacetylation to GlcN-Ins, ligation of the latter to L-cysteine, and transacetylation of the cysteinyl residue by CoASAc to produce MSH. The genes encoding the respective enzymes have been designated mshA, mshB, mshC, and mshD; all but mshA have been identified. Mycobacterium smegmatis mutants deficient in mshA, mshC, and mshD have been characterized. MSH plays a significant role in the detoxification of thiol-reactive substances, including formaldehyde, various electrophiles, and antibiotics. Mycothiol S-conjugates derived from electrophiles and antibiotics are cleaved by mycothiol S-conjugate amidase to release GlcN-Ins, used to resynthesize MSH, and a mercapturic acid which is excreted from the cell. A mycothiol-disulfide-selective reductase has been identified and likely helps to maintain cellular MSH in the reduced state. Mycothiol biochemistry has characteristics similar to those of glutathione but also has a variety of unique features.
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PMID:Mycothiol biochemistry. 1242 Jan 57

Mycothiol is an abundant small molecular weight thiol found only in actinomycetes, which include mycobacteria. Mycothiol biosynthetic and detoxification enzymes are novel and unique to actinomycetes, thereby representing potential antimycobacterial targets. To better guide inhibitor design, we have determined by NMR the solution conformations of mycothiol bimane (MSmB) and the pseudodisaccharide 1-D-GlcNAc-alpha-(1 --> 1)-D-myo-Ins (D-GI), molecules that represent the natural substrates for the mycothiol-dependent detoxification enzyme mycothiol-S-conjugate amidase (MCA) and the mycothiol biosynthetic enzyme D-GlcNAc-alpha-(1 --> 1)-D-myo-Ins deacetylase (AcGI deacetylase), respectively. Comparison of the mean structure of MSmB and the energy-minimized structures of two competitive spiroisoxazoline-containing MCA inhibitors shows striking similarities between these molecules in the region of the scissile amide bond of MSmB and provides structural evidence that those inhibitors are substrate mimics. Owing to our earlier finding that AcGI deacetylase will not deacetylate the unnatural isomer 1-d-GlcNAc-alpha-(1 --> 1)-L-myo-Ins (L-GI), the solution conformation of L-GI was also determined. The interglycosidic bond angles for all three compounds are comparable. When considered together with the observation that a simplified cyclohexyl thioglycoside mycothiol analogue is a good substrate for MCA, it appears that the stereochemistry of the inositol ring is critical for deacetylase function, superceding the importance of the full complement of hydroxyl groups on the "nonreducing" ring.
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PMID:Solution conformations of mycothiol bimane, 1-D-GlcNAc-alpha-(1 --> 1)-D-myo-Ins and 1-D-GlcNAc-alpha-(1 --> 1)-L-myo-Ins. 1271 35

Mycothiol is comprised of N-acetylcysteine (AcCys) amide linked to 1D-myo-inosityl 2-amino-2-deoxy-alpha-D-glucopyranoside (GlcN-Ins) and is the predominant thiol found in most actinomycetes. Mycothiol S-conjugate amidase (Mca) cleaves the amide bond of mycothiol S-conjugates of a variety of alkylating agents and xenobiotics, producing GlcN-Ins and a mercapturic acid that can be excreted from the cell. Mca of Mycobacterium tuberculosis (Rv1082) was cloned and expressed as a soluble protein in Escherichia coli. The protein contained 1.4 +/- 0.1 equiv of zinc after purification, indicating that Mca is a metalloprotein with zinc as the native metal. Kinetic studies of Mca activity with 14 substrates demonstrated that Mca is highly specific for the mycothiol moiety of mycothiol S-conjugates and relatively nonspecific for the structure of the sulfur-linked conjugate. The deacetylase activity of Mca with GlcNAc-Ins is small but significant and failed to saturate at up to 2 mM GlcNAc-Ins, indicating that Mca may contribute modestly to the production of GlcN-Ins when GlcNAc-Ins levels are high. The versatility of Mca can be seen in its ability to react with a broad range of mycothiol S-conjugates, including two different classes of antibiotics. The mycothiol S-conjugate of rifamycin S was produced under physiologically relevant conditions and was shown to be a substrate for Mca in both oxidized and reduced forms. Significant activity was also seen with the mycothiol S-conjugate of the antibiotic cerulenin as a substrate for Mca.
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PMID:Characterization of Mycobacterium tuberculosis mycothiol S-conjugate amidase. 1455 38

Mycothiol (MSH) is the major cellular thiol in Mycobacterium tuberculosis (M.tb). We hypothesize that the mycothiol-dependent detoxification pathway may serve an important role during oxygen stress management in M. tuberculosis, derived from normal aerobic metabolism, the macrophage environment and through the action of anti-tubercular antibiotics, such as Isoniazid (INH). Total mRNA and DNA were isolated from M. bovis BCG at different stages of growth in 7H9 mycobacterial medium. Three genes involved in mycothiol metabolism and encoding the enzymes mycothiol S-conjugate amidase (Mca, Rv1082), NADPH dependent mycothiol reductase (mtr, Rv2855), and N-Acetyl-1-D-myo-Inosityl-2-Amino-2-Deoxy-alpha-D-Glucopyranoside Deacetylase (GlcNAc-Ins deacetylase, Rv1170 or mshB) were investigated for genomic rearrangements and expression. The results show that the genomic domains of the genes remain conserved in evolutionary diverse and unrelated M. tuberculosis isolates. The genes encoding enzymes implicated in mycothiol reduction, mtr (Rv2855) and the mycothiol-dependant detoxification of electrophilic agents, Mca (Rv1082), are shown to be actively transcribed during logarithmic M. bovis BCG growth. The gene encoding GlcNAc-Ins deacetylase (the rate limiting mycothiol biosynthesis step) shows induction in the presence of INH. Antisense oligonucleotides to both GlcNAc-Ins deacetylase (Rv1170) and mtr (Rv2855) mRNA affect mycobacterial growth. In conclusion the results presented here suggest that these enzymes are sensitive to free radical generating antituberculosis drugs and may be useful targets for new drug development.
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PMID:Differential expression of mycothiol pathway genes: are they affected by antituberculosis drugs? 1518 46

Mycothiol (MSH, AcCys-GlcN-Ins) is the major low molecular weight thiol in actinomycetes and is essential for growth of Mycobacterium tuberculosis. MshB, the GlcNAc-Ins deacetylase, is a key enzyme in MSH biosynthesis. MshB from M. tuberculosis was cloned, expressed, purified, and its properties characterized. Values of k(cat) and K(m) for MshB were determined for the biological substrate, GlcNAc-Ins, and several other good substrates. The substrate specificity of MshB was compared to that of M. tuberculosis mycothiol S-conjugate amidase (Mca), a homologous enzyme having weak GlcNAc-Ins deacetylase activity. Both enzymes are metalloamidases with overlapping amidase activity toward mycothiol S-conjugates (AcCySR-GlcN-Ins). The Ins residue and hydrophobic R groups enhance the activity with both MshB and Mca, but changes in the acyl group attached to GlcN have opposite effects on the two enzymes.
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PMID:Purification and characterization of Mycobacterium tuberculosis 1D-myo-inosityl-2-acetamido-2-deoxy-alpha-D-glucopyranoside deacetylase, MshB, a mycothiol biosynthetic enzyme. 1663 Jul 24

Synthesis and evaluation of a chemical library of inhibitors of the mycothiol biosynthesis enzyme GlcNAc-Ins deacetylase (MshB) and the mycothiol-dependent detoxification enzyme mycothiol- S-conjugate amidase (MCA) from Mycobacterium tuberculosis are reported. The library was biased to include structural features of a group of natural products previously shown to competitively inhibit MCA. Molecular docking studies that reproducibly placed the inhibitors in the active site of the enzyme MshB reveal the mode of binding and are consistent with observed biological activity.
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PMID:Synthesis of natural product-inspired inhibitors of Mycobacterium tuberculosis mycothiol-associated enzymes: the first inhibitors of GlcNAc-Ins deacetylase. 1802 Mar 7

Mycothiol (MSH) is the major thiol in Actinobacteria and plays a role analogous to that of glutathione. The biosynthetic pathway has been established in mycobacteria and is initiated by the glycosyltransferase MshA. A key mycothiol-dependent detoxification pathway utilizes the amidase (Mca) to cleave mycothiol S-conjugates to produce GlcN-Ins and a mercapturic acid excreted from the cell. How expression of mycothiol genes is regulated in mycobacteria has been unclear so the report in this issue by Park and Roe showing that in Streptomyces coelicolor the redox controlled anti-sigma factor RsrA that binds the regulator sigma(R) controls key elements of mycothiol metabolism is a major advance. Conditions that deplete thiols are shown to induce directly expression of sigR, rsrA, mshA and mca, as well as the thioredoxin reductase-thioredoxin system, generating an autoregulatory cycle that persists until the thiol-depleting condition is alleviated. Evidence for indirect induction of mshB-D to support mycothiol biosynthesis is also presented. It was shown in vitro that mycothiol, like reduced thioredoxin and dithiothreitol, can reduce oxidized RsrA to activate its binding to sigma(R). These studies establish for the first time how mycothiol metabolism is regulated to cope with stress from thiol reactive toxins.
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PMID:Regulation of mycothiol metabolism by sigma(R) and the thiol redox sensor anti-sigma factor RsrA. 1843 82

Mycothiol (MSH; AcCys-GlcN-Ins) is the major thiol found in Actinobacteria and has many of the functions of glutathione, which is the dominant thiol in other bacteria and eukaryotes but is absent in Actinobacteria. MSH functions as a protected reserve of cysteine and in the detoxification of alkylating agents, reactive oxygen and nitrogen species, and antibiotics. MSH also acts as a thiol buffer which is important in maintaining the highly reducing environment within the cell and protecting against disulfide stress. The pathway of MSH biosynthesis involves production of GlcNAc-Ins-P by MSH glycosyltransferase (MshA), dephosphorylation by the MSH phosphatase MshA2 (not yet identified), deacetylation by MshB to produce GlcN-Ins, linkage to Cys by the MSH ligase MshC, and acetylation by MSH synthase (MshD), yielding MSH. Studies of MSH mutants have shown that the MSH glycosyltransferase MshA and the MSH ligase MshC are required for MSH production, whereas mutants in the MSH deacetylase MshB and the acetyltransferase (MSH synthase) MshD produce some MSH and/or a closely related thiol. Current evidence indicates that MSH biosynthesis is controlled by transcriptional regulation mediated by sigma(B) and sigma(R) in Streptomyces coelicolor. Identified enzymes of MSH metabolism include mycothione reductase (disulfide reductase; Mtr), the S-nitrosomycothiol reductase MscR, the MSH S-conjugate amidase Mca, and an MSH-dependent maleylpyruvate isomerase. Mca cleaves MSH S-conjugates to generate mercapturic acids (AcCySR), excreted from the cell, and GlcN-Ins, used for resynthesis of MSH. The phenotypes of MSH-deficient mutants indicate the occurrence of one or more MSH-dependent S-transferases, peroxidases, and mycoredoxins, which are important targets for future studies. Current evidence suggests that several MSH biosynthetic and metabolic enzymes are potential targets for drugs against tuberculosis. The functions of MSH in antibiotic-producing streptomycetes and in bioremediation are areas for future study.
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PMID:Biosynthesis and functions of mycothiol, the unique protective thiol of Actinobacteria. 1877 86


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