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)

Bacteroides thetaiotaomicron, a gram-negative anaerobe found in human colons, could utilize chondroitin sulfate, a tissue mucopolysaccharide, as its sole source of carbohydrate. The enzymes responsible for the breakdown of chondroitin sulfate by B. thetaiotaomicron were similar to those produced by Proteus vulgaris and Flavobacterium heparinum and included a lyase (EC 4.2.2.4), which degraded chondroitin sulfate into sulfated disaccharides, sulfatases (EC 3.1.6.4), which removed the sulfate residues, and a glucuronidase, which broke the unsulfated disaccharides into monosaccharide components. Chondroitin sulfate lyase, the first enzyme in the breakdown sequence, was not extracellular. It appeared to be located in the periplasmic space since lyase activity was released by treatment with ethylenediaminetetraacetate and lysozyme. Moreover, sodium polyanethole sulfonate, a high-molecular-weight inhibitor of chondroitin lyase, did not inhibit breakdown of chondroitin sulfate by intact bacteria. The sulfatase and glucuronidase appeared to be intracellular. None of these enzymes was strongly bound to membranes, and none of the steps in the breakdown of chondroitin sulfate was sensitive to oxygen.
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PMID:Cellular location of enzymes involved in chondroitin sulfate breakdown by Bacteroides thetaiotaomicron. 678 76

Aggrecan-derived chondroitin sulfate (CS) chains, released by beta-elimination, were derivatized with p-aminobenzoic acid or p-aminophenol; radioiodinated; and subjected to graded or complete degradations by chondroitin ABC lyase to generate linkage region fragments of the basic structure DeltaGlyUA-GalNAc-GlcUA-Gal-Gal-Xyl-R (where DeltaGlyUA represents 4, 5-unsaturated glycuronic acid, and R is the adduct), by chondroitin AC lyase to generate the shorter fragment DeltaGlyUA-Gal-Gal-Xyl-R, or by chondroitin C lyase to generate the same fragment when it was linked to a 6-O-sulfated or unsulfated GalNAc at the nonreducing end. Fragments were separated by size using gel chromatography, by charge using ion-exchange chromatography, and by size/charge using electrophoresis and then characterized by stepwise degradations from the nonreducing end by using mercuric acetate to remove all terminal DeltaGlyUA, by bacterial glycuronidase to remove the same residue when linked to unsulfated or 6-O-sulfated GalNAc/Gal, by mammalian 4-sulfatase to remove sulfate from terminal GalNAc 4-O-sulfate, by chondro-4-sulfatase to remove 4-O-sulfate from other GalNAc/Gal residues, and by beta-galactosidase to remove terminal Gal. Results with CS from bovine nasal cartilage aggrecan show that, in nearly all chains, Xyl and probably also the first Gal are unsubstituted, whereas the second Gal is 4-O-sulfated in one CS chain out of five. The first disaccharide repeat is sulfated at C-4 of GalNAc in one chain out of three and unsulfated in the other two. A sulfated first disaccharide is always joined to an unsulfated GlcUA-Gal-Gal sequence. In contrast, CS from human articular cartilage usually has a sulfated first disaccharide repeat. In CS from young human cartilage, sulfate groups are mostly at C-4 of GalNAc in the major part of the chain, but at C-6 in the nonreducing distal portion. In CS from old cartilage, sulfation at C-6 of GalNAc is a major feature from the nonreducing end down to approximately positions 4 and 5 from the linkage region, where GalNAc 4-O-sulfate is common.
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PMID:Variations in the chondroitin sulfate-protein linkage region of aggrecans from bovine nasal and human articular cartilages. 891 Apr 87

Dermatan sulfate was partially depolymerized with chondroitin ABC lyase to obtain an oligosaccharide mixture from which an unsaturated disulfated tetrasaccharide was purified and characterized using nuclear magnetic resonance spectroscopy and electrospray ionization mass spectrometry. Chemical removal of the unsaturated uronate residue with mercuric acetate, followed by de-4-O-sulfation with arylsulfatase B (N-acetylgalactosamine 4-sulfatase) and N- acetylhexosaminidase catalyzed removal of the 2-acetamido-2-deoxy-D-galactospyranosyl residue at the non-reducing end afforded a monosulfated disaccharide of the structure alpha-L-idopyranosyluronic acid (1-->3)-alpha,beta-D-2-acetamido-2-deoxy-4-O-sulfo galactopyranose. This monosulfated disaccharide serves as a substrate for mammalian alpha-L-iduronidase as demonstrated using fluorophore assisted carbohydrate electrophoresis.
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PMID:Chemoenzymatic preparation of dermatan sulfate oligosaccharides as arylsulfatase B and alpha-L-iduronidase substrates. 1151 7

A functional bioassay has been developed for measuring the intracellular activity of recombinant human arylsulfatase B (rhASB) on its natural glycosaminoglycan (GAG) substrates, dermatan sulfate (DS), and chondroitin sulfate (CS) when the enzyme is taken up into cultured ASB-deficient human fibroblasts (GM00519). The enzyme ASB is a lysosomal exohydrolase, cleaving sulfate from the N-acetylgalactosamine-4-sulfate (GalNAc-4S) residue at the nonreducing terminal of GAG structures. ASB-deficient cells accumulate DS and CS, which may be partially hydrolyzed by other lysosomal hydrolases, with the reactions stopping if a GalNAc-4S residue is reached on the nonreducing end of the oligosaccharide. When rhASB is added to the culture medium, the enzyme is taken up and translocates to the lysosomes and the intracellular DS and CS are depleted, demonstrating that the uptake of rhASB is able to restore lysosomal function in an in vitro cell-based assay. The accumulation and depletion of DS and CS are measured by digesting the residual intracellular DS and CS content with chondroitin ABC lyase and monitoring a characteristic disaccharide digestion product by laser-induced fluorescence-capillary zone electrophoresis (LIF-CZE). In the proposed assay format, GM00519 cells are cultured 5 weeks postconfluence to accumulate DS/CS, followed by incubation with rhASB (1-20 pM) for 5 days, and the CS/DS depletion profiles are compared between samples. The assay measures depletion of DS/CS independently of their molecular size or processing state; in this approach, all DS- and CS-like substances accumulating in the absence of ASB activity are considered to be natural substrates of the enzyme.
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PMID:Development of a functional bioassay for arylsulfatase B using the natural substrates of the enzyme. 1968 69