EC:3.1.6.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.6.1 (sulfatase)
3,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Eosinophil migration toward a concentration gradient of a chemotactic factor is regulated at four levels. Diverse immunologic pathways generate stimuli with eosinophil chemotactic activity, including the complement products C5a and a fragment of C3a and the peptide products of mast cells and basophils activated by IgE-mediated reactions, such as eosinophil chemotactic factor of anaphylaxis (ECF-A) and other oligopeptides. The intrinsic preferential leukocyte activity of the chemotactic stimuli represents the second level of modulation, with ECF-A and other mast cell-derived peptides exhibiting the most selective action on eosinophils. The third level of control of eosinophil chemotaxis is composed of inactivators and inhibitors of chemotactic stimuli and is exemplified by degradation of C5a by anaphylatoxin inactivator or chemotactic factor inactivator and of ECF-A by carboxypeptidase-A or aminopeptidases. The activity of ECF-A is uniquely suppressed by equimolar quantities of its NH2- terminal tripeptide substituent, presumably by eosinophil membrane receptor competition. Factors comprising the fourth level of regulation, which alter eosinophil responsiveness to chemotactic stimuli, include the chemotactic factors themselves, through deactivation; nonchemotactic inhibitors such as the COOH-terminal tripeptide substituent of ECF-A, the neutrophil-immobilizing factor (NIF), the phagocytosis-enhancing factor Thr-Lys-Pro-Arg, and histamine at concentrations greater than 400 ng/ml; and nonchemotactic enhancing principles represented by ascorbate and by histamine at concentrations of 30 ng/ml or less. Local concentrations of eosinophils called to and immobilized at the site of a hypersenitivity reaction may express their regulatory functions by degrading the chemical mediators elaborated including histamine, slow-reacting substance of anaphylaxis (SRS-A), and platelet-activating factor (PAF) by way of their content of histaminase, arylsulfatase B, and phospholipase D, respectively. Immunologic pathways may thus provide the capability for early and specific host defense reactions with a later influx of eosinophils preventing irreversible local tissue alterations or distant organ effects.
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PMID:Modulation of human eosinophil polymorphonuclear leukocyte migration and function. 79 10

Mucopolysaccharidosis type IVA (MPS IVA) results from a genetic deficiency of N-acetylgalactosamine-6-sulfate (Gal-NAc6S) sulfatase. We have identified two different exonic mutations causing GalNAc6S sulfatase deficiency in two unrelated Japanese families, in one patient with classical Morquio disease, and in two brothers with a mild form of MPS IVA. The nucleotide sequence of the full-length cDNA derived from a patient with classical Morquio disease revealed a two-base deletion at nucleotide position 1343-1344 (1344-1345 or 1345-1346) that altered the reading frame (designated 1342delCA). This mutation, inherited from the proband's consanguineous parents, was revealed by TaqI restriction analysis of a cDNA fragment amplified by the polymerase chain reaction. In the proband with the mild form of the disease, a C to G transversion at nucleotide 667 predicted the substitution of Lys for Asn204 (N204K). Since a new AluI site was created by the N204K mutation, restriction analysis indicated that the affected brothers were homozygous for this mutation, as confirmed by the finding that both their parents had this lesion. Transient expression in GalNAc6S sulfatase deficient fibroblasts of these two mutant alleles showed completely deficient or markedly decreased enzyme activities, thereby indicating that these two mutations were responsible for the enzyme deficiency.
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PMID:Mucopolysaccharidosis type IVA. N-acetylgalactosamine-6-sulfate sulfatase exonic point mutations in classical Morquio and mild cases. 152 13

The enzyme activities of four strains of Legionella pneumophilia were investigated by using the API ZYM system (API System S.A., F-38390 Montalieu Vercieu, France) and synthetic substrates. Aminopeptidases were detected specifically against L-alanine, L-arginine, L-aspartic acid, L-cystine, L-glutaminic acid, glycine, L-histidine, L-isoleucine, L-leucine, L-lysine, L-methionine, L-phenylalanine, L-tryptophan, L-tyrosine, and L-valine. Furthermore, the bacteria possesses esterase activity splitting propionate, butyrate, caproate, caprylate, and caprate, but not laurate, myristate, palmitate, and stearate, esters. The enzymes studies were inhibited partially by aprotinin. No inhibition of phosphatase (pH range, 5.4 to 8.5) or of phosphoamidase was observed. Activities of arylsulfatase, chymotrypsin, trypsin, and glycosidases could not be detected.
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PMID:Enzymatic profile of Legionella pneumophilia. 616 35

The enzyme spectrum of non proliferating cells of Erysipelothrix rhusiopathiae was investigated by means of different low molecular synthetic substrates. Activities of aminopeptidases were found directed against compounds of L-alanine, L-arginine, L-aspartic acid, glycine, L-isoleucine, L-leucine, L-lysine, L-methionine, L-phenylalanine, L-proline, L-tryptophane, and L-tyrosine, but not against compounds of l-cystine, L-glutaminic acid, L-histidine, L-hydroxyproline, and L-valine (Table 1). The pH optimum of the investigated aminopeptidases ranges from neutral to alkaline reaction (Table 2). Trypsin, chymotrypsin, or chymotrypsin-like proteases were not detected. E. rhusiopathiae possess esterase activity splitting esters of lower carboxylic acids, i. e. acetic acid, propionic acid, butyric acid, caproic acid, and caprylic acid, but no lipase activity. Under the provoked glycosidases only alpha- and beta-D-galactosidase and glucosaminidase were positive. Weak activities of phosphatases and arylsulfatase were found also (Table 3).
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PMID:[Investigations of the enzyme spectrum of Erysipelothrix rhusiopathiae (author's transl)]. 627 98

Previous studies have shown that degradation of the acute phase reactant serum amyloid A (SAA) is mediated by enzymes on the plasma membrane of lymphocytes and monocytes. The responsible enzymes had properties of neutral elastases. The present investigations were conducted to explore whether human NK cells enriched by Percoll gradient centrifugation have similar activity and if so, whether the same or different enzyme classes are responsible for proteolysis as well as for tumor cell lysis. Accordingly, human NK cells were enriched on discontinuous Percoll gradients after which the cells were incubated either with SAA or with [3H] proline-labeled melanoma cells at various effector to target cell ratios. When SAA degradation was followed by SDS-polyacrylamide gel electrophoresis, NK fractions proved to be as effective in digesting the protein as unfractionated mononuclear leukocytes. To characterize the enzymes that may be involved in cytotoxicity on the one hand, and SAA degradation on the other, the NK fractions were treated with the following inhibitors: diisopropylfluorophosphate (DFP), soybean trypsin inhibitor, N-p-tosyl-L-lysine chloromethylketone (TLCK), the elastase inhibitors elastatinal, Ac-Ala-Ala-Pro-Val-CH2Cl, Meo-Suc-Ala-Ala-Pro-Val-CH2Cl, and an inhibitor of aryl sulfatase, Na2SO4. Preincubation of the cells with DFP or elastase inhibitors abolished their ability to hydrolyze SAA but did not affect their ability to kill tumor cells. On the other hand TLCK, a potent inhibitor of cytotoxicity, did not bring about any reduction in the proteolysis of SAA. DFP and Na2SO4 diminished cytotoxicity partially. Elimination of NK cells by sorting after incubation of lymphocytes with the monoclonal antisera Leu-7 and Leu-11 abolished cytotoxicity as well as proteolysis. The observations are compatible with the concept that NK cells carry several enzymes with different substrate specificities that may be involved in disparate cellular functions.
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PMID:Different enzyme classes associated with human natural killer cells may mediate disparate functions. 636 42

The culture conditions of Afipia felis, A. broomeae, A. clevelandensis and three unnamed Afipia genospecies were investigated on BCY agar supplemented with different substances known as growth factors of Legionella spp. and, furthermore, with sodium chloride and other salts. The organisms were found to be susceptible to a certain degree to byproducts of the autoclaving which are scavenged by activated by charcoal. Growth was weakly enhanced by ferric pyrophosphate, cystein.HCl, and alpha-ketoglutarate. These substances are no obligatory growth factors. The optimal pH value was about 6.8. Afipia spp. showed a strong susceptibility to NaCl and other salts. They possess phosphatase, phosphoamidase, phosphodiesterase, a weak sulfatase, glycine aminopeptidase, and L-lysine aminopeptidase. The strains differed with regard to other proteases and aminopeptidases. The decimal reduction times of A. felis at 55 degrees C and 60 degrees C were 11 min, < 1 min, respectively.
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PMID:Investigations of culture and properties of Afipia spp. 773 25

The critical step in lysosomal targeting of soluble lysosomal enzymes is the recognition by an UDP-N-acetylglucosamine:lysosomal enzyme-N-acetylglucosamine-1-phosphotransferase. The structure of the determinant common to all lysosomal enzymes for proper recognition by the phosphotransferase is not completely understood. Our current knowledge is largely based on the introduction of targeted amino acid substitutions into lysosomal enzymes and analysis of their effects on phosphotransferase recognition. We have investigated the effect of eight anti-arylsulfatase A monoclonal antibodies on the interaction of arylsulfatase A with the lysosomal enzyme phosphotransferase in vitro. We also show that a lysine-rich surface area of arylsulfatases A and B is essential for proper recognition by the phosphotransferase. Monoclonal antibodies bind to at least six different epitopes at different locations on the surface of arylsulfatase A. All antibodies bind outside the lysine-rich recognition area, but nevertheless Fab fragments of these antibodies prevent interaction of arylsulfatase A with the phosphotransferase. Our data support a model in which binding of arylsulfatase A to the phosphotransferase is not restricted to a limited surface area but involves the simultaneous recognition of large parts of arylsulfatase A.
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PMID:Interaction of arylsulfatase A with UDP-N-acetylglucosamine:Lysosomal enzyme-N-acetylglucosamine-1-phosphotransferase. 992 Sep 14

Arylsulfatase A (ASA) belongs to the sulfatase family whose members carry a C(alpha)-formylglycine that is post-translationally generated by oxidation of a conserved cysteine or serine residue. The crystal structures of two arylsulfatases, ASA and ASB, and kinetic studies on ASA mutants led to different proposals for the catalytic mechanism in the hydrolysis of sulfate esters. The structures of two ASA mutants that lack the functional C(alpha)-formylglycine residue 69, in complex with a synthetic substrate, have been determined in order to unravel the reaction mechanism. The crystal structure of the inactive mutant C69A-ASA in complex with p-nitrocatechol sulfate (pNCS) mimics a reaction intermediate during sulfate ester hydrolysis by the active enzyme, without the covalent bond to the key side-chain FGly69. The structure shows that the side-chains of lysine 123, lysine 302, serine 150, histidine 229, the main-chain of the key residue 69 and the divalent cation in the active center are involved in sulfate binding. It is proposed that histidine 229 protonates the leaving alcoholate after hydrolysis.C69S-ASA is able to bind covalently to the substrate and hydrolyze it, but is unable to release the resulting sulfate. Nevertheless, the resulting sulfation is low. The structure of C69S-ASA shows the serine side-chain in a single conformation, turned away from the position a substrate occupies in the complex. This suggests that the double conformation observed in the structure of wild-type ASA is more likely to correspond to a formylglycine hydrate than to a twofold disordered aldehyde oxo group, and accounts for the relative inertness of the C69S-ASA mutant. In the C69S-ASA-pNCS complex, the substrate occupies the same position as in the C69A-ASA-pNCS complex, which corresponds to the non-covalently bonded substrate. Based on the structural data, a detailed mechanism for sulfate ester cleavage is proposed, involving an aldehyde hydrate as the functional group.
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PMID:Crystal structure of an enzyme-substrate complex provides insight into the interaction between human arylsulfatase A and its substrates during catalysis. 1112 5

Tetrahydrocurcumin (THC) is an antioxidative substance which is derived from curcumin by hydrogenation. Curcumin is the main component of turmeric and is responsible for the yellow color of curried foods.First, LDL derived from a normal human volunteer was incubated in the presence of an antioxidant with 10 microM CuSO(4) at 37 degrees C for 2 hours.All antioxidants tested (THC, curcumin, probucol, and alpha-tocopherol) dose-dependently (1-10 microM) inhibited the oxidative modification of LDL. Probucol was the strongest, followed by THC, alpha-tocopherol, and curcumin.Next, in order to evaluate the antioxidative activity of THC in vivo, we fed rabbits diets containing 1% cholesterol with or without 0.5% THC and examined their effects on oxidative stress and atherosclerosis. Animals were divided into two groups: the control group rabbits (n = 12) were fed a normal chow diet and the experimental group (n = 12) was fed a diet containing 0.5% THC for one week.Then, 1% cholesterol was added to the diets and the animals were allowed to feed further for either 6 (n = 4 for each group) or 12 weeks (n = 8 for each group). Although serum cholesterol levels rapidly increased after starting the high cholesterol diet, no difference was observed between the control and THC groups.TBARS formation in the absence of added copper ion was inhibited in the LDL separated from THC-treated animals compared with that from control animals.THC treatment tended to inhibit the area covered with atherosclerotic lesions compared with the control, although this was not significant (28.8 +/- 17.5% vs. 40.0 +/- 23.7%, p = 0.2). Formation of N(epsilon)-(hexanoyl) lysine, 4-hydroxynonenal and dityrosine in liver and kidney also had a tendency to be inhibited by THC treatment. Although free THC was not detected in serum and liver, THC was detected in samples treated with beta-glucuronidase and sulfatase, suggesting that THC is present as a conjugate with glucuronic acid or sulfate. In conclusion, the present results suggest that curcuminoids, particularly THC, which are contained in turmeric, may be useful as a functional food factor.
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PMID:The protective effects of tetrahydrocurcumin on oxidative stress in cholesterol-fed rabbits. 1240 34

The critical step for sorting of lysosomal enzymes is the recognition by a Golgi-located phosphotransferase. The topogenic structure common to all lysosomal enzymes essential for this recognition is still not well defined, except that lysine residues seem to play a critical role. Here we have substituted surface-located lysine residues of lysosomal arylsulfatases A and B. In lysosomal arylsulfatase A only substitution of lysine residue 457 caused a reduction of phosphorylation to 33% and increased secretion of the mutant enzyme. In contrast to critical lysines in various other lysosomal enzymes, lysine 457 is not located in an unstructured loop region but in a helix. It is not strictly conserved among six homologous lysosomal sulfatases. Based on three-dimensional structure comparison, lysines 497 and 507 in arylsulfatase B are in a similar position as lysine 457 of arylsulfatase A. Also, the position of oligosaccharide side chains phosphorylated in arylsulfatase A is similar in arylsulfatase B. Despite the high degree of structural homology between these two sulfatases substitution of lysines 497 and 507 in arylsulfatase B has no effect on the sorting and phosphorylation of this sulfatase. Thus, highly homologous lysosomal arylsulfatases A and B did not develop a single conserved phosphotransferase recognition signal, demonstrating the high variability of this signal even in evolutionary closely related enzymes.
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PMID:Recognition of arylsulfatase A and B by the UDP-N-acetylglucosamine:lysosomal enzyme N-acetylglucosamine-phosphotransferase. 1278 70

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