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

In bile specimens from postoperative patients with biliary drainage following cholecystectomy, in addition to unchanged dibromosulfophthalein (DBSP), a single polar metabolite of DBSP was found after i.v. injection of 5 mg/kg of the diagnostic dye. This metabolite, which has not previously been detected, was resistant to beta-glucuronidase and arylsulfatase and was remarkably stable in strongly acid and alkaline solutions. It exhibited the same spectrum and colour change interval as unchanged DBSP. Further studies of its identity revealed that it gave a ninhydrin-positive reaction and that its Rf-value on TLC could be restored by Raney-nickel reduction. Amino-acid analysis after reduction and acid hydrolysis showed an increase in glutamic acid and alanine that can be considered as splitting products of conjugated glutathione following these procedures. Estimation of the quantity of this possible glutathione conjugate indicates that it is formed less rapidly than the glutathione derivative of the tetrabromoanalogue BSP, and that it represents up to 25% of the total dye excreted in bile. The observed metabolism of DBSP in man may complicate its use in the study of hepatic transport function, and negates the previous assumption that, as in certain other animal species, the dye is excreted unchanged.
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PMID:Formation of a metabolite of dibromosulfophthalein (DBSP) in man. 687 53

To elucidate the chemical structure of slow-reacting substance of anaphylaxis from rat (SRS-A rat), SRS-A rat were purified by the method of Orange with modification using DEAE-Sephadex A-25 chromatography. Ultraviolet absorption spectrum of purified SRS-A rat indicated the presence of conjugated triene. Arylsulfatase B degradation products and HCl degradation products were subjected to analysis by a gas chromatography and mass spectrometry and a thin layer chromatography. Products obtained by arylsulfatase b catalysis contained 5,6-dihydroxy-7,9,11,14-eicosatetraenoic acid. HCl degradation products showed the presence of glycine, glutamic acid and cysteic acid. Furthermore, the analysis of anhydrous hydrazine degradation products of SRS-A rat and of HCl hydrolyzed products of dinitrophenylated SRS-A rat revealed the presence of glycine at C-terminal and glutamine acid at N-terminal. The study of the substrate specificity of arylsulfatase B against various materials including SRS-A rat suggested the presence of sulfone in SRS-A rat. The molecular ion peak of SRS-A rat sodium salt was observed at m/e 680 in field desorption mass spectrum of SRS-A rat. On the basis of these data, we identified the structure of SRS-A rat as [gamma]glutamyl-4(5-hydroxy-7,9,11,14-eicosatetraenoic acid-6-yl)-4,4-dioxyocysteinyl] glycine.
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PMID:Structure of slow-reacting substance of anaphylaxis (SRS-A). 746 61

Renal damage caused by polycationic peptides is well documented, but renal damage caused by polyanionic peptides is not. During our attempts to inhibit the nephrotoxicity of aminoglycoside antibiotics by polyanionic peptides, we discovered that poly-D-glutamic acid (molecular weight, 20 kd; 250 mg/kg/day subcutaneously for 1 to 4 days) produces an acute thesaurismosis in the proximal tubular cells associated with a marked proliferation of peritubular interstitial cells in rat kidney. Thesaurismotic bodies were easily visualized by light microscopy at the basal pole of proximal tubular cells with the cationic stain Giemsa. By electron microscopy, these bodies appeared membrane-limited, frequently distorted, filled with heterogeneous granular material, accessible to injected peroxidase (a tracer of the endocytic pathway), and generally stainable for the lysosomal enzyme arylsulfatase. Specimens obtained 3 hours after injection of poly-D-glutamic acid and horseradish peroxidase suggested an impairment of endosome and/or lysosome fission, but not fusion. By histoautoradiographic examination after 3H-thymidine incorporation, global labeling indices of cortical cells were increased 11- to 18-fold in poly-D-glutamic acid-treated rats as compared with controls, with > 80% of labeled cells localized in the interstitium. Distal tubular and glomerular cells also showed a moderate proliferation, but proximal tubular cells showed no significant necrosis or proliferation. Although tubular thesaurismosis persisted, interstitial cell proliferation resolved within 7 days after cessation of treatment. We suggest that poly-D-glutamic acid is a convenient tool to induce a rapid and sustained lysosomal storage disorder. It could also help clarify the relationship between insults to tubular cells and proliferation of peritubular cells, two features frequently associated in tubulointerstitial disorders. The mechanism of the thesaurismosis and of the interference with the dynamics of fusion-fission of the endocytic apparatus are addressed in the companion paper.
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PMID:Poly-D-glutamic acid induces an acute lysosomal thesaurismosis of proximal tubules and a marked proliferation of interstitium in rat kidney. 866 6

In the companion paper, we report that a single injection of poly-D-glutamic acid causes an acute lysosomal storage condition and apparently impairs the lysosomal fission dynamics. The present paper addresses the mechanisms of these two alterations using a combination of in vivo and in vitro biochemical approaches. After a single intravenous injection, 14C-poly-D-glutamic acid was rapidly cleared from the plasma and appeared in the urine. Yet, a small but sizable fraction of the injected polymer was taken up by the kidney cortex through a saturable process (Kuptake, 150 mg/kg body wt; uptakemax 96 micrograms/g cortex). Analytical subcellular fractionation of cortex homogenates demonstrated that at initial stages, the 14C label was predominantly associated with subcellular particles of intermediate size and low equilibrium density, and was therefore slowly transferred to larger particles equilibrating at high density, then codistributing with the lysosomal hydrolases. At a concentration of 10 mg/ml (equivalent to its estimated concentration in lysosomes), poly-D-glutamic acid formed micronic aggregates ( > or = 10 microns) when brought to solution at pH < or = 6 in relation to its decreased ionization (pKa of lateral chains approximately equal to 4.25). Finally, 1 day after the injection of poly-D-glutamic acid, the activities of several lysosomal enzymes (hexosaminidase, cathepsin B, acid sphingomyelinase, and sulfatase B), but not of all of them (eg, acid phosphatase), were increased in the kidney cortex. We propose that poly-D-glutamic acid reaches lysosomes by adsorptive endocytosis and becomes concentrated within these organelles because its withstands hydrolysis until it forms aggregates or precipitates, causing a decrease in the fluidity or the deformability ("gelling") of the lysosomal matrix. This should alter the dynamics of intercommunication of these organelles by impairing their fission without a proportionate effect on their fusion properties. In addition, the data suggest that the presence of poly-D-glutamic acid directly or indirectly slows down the degradation of several lysosomal enzymes.
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PMID:Mechanism of the thesaurismosis and altered lysosomal dynamics induced by poly-D-glutamic acid in kidney proximal tubular cells. 866 7

Besides flavan-3-ols, a family of N-phenylpropenoyl-L-amino acids (NPAs) has been recently identified as polyphenol/amino acid conjugates in the seeds of Theobroma cacao as well as in a variety of herbal drugs. Stimulated by reports on their biological activity, the purpose of this study was to investigate if these amides are absorbed by healthy volunteers after administration of a cocoa drink. For the first time, 12 NPAs were quantified in human urine by means of a stable isotope dilution analysis with LC-MS/MS (MRM) detection. A maximum amount was found in the urine taken 2 h after the cocoa consumption. The highest absolute amount of NPAs excreted with the urine was found for N-[4'-hydroxy-(E)-cinnamoyl]-L-aspartic acid (5), but the highest recovery rate (57.3 and 22.8%), that means the percentage amount of ingested amides excreted with the urine, were determined for N-[4'-hydroxy-(E)-cinnamoyl]-L-glutamic acid (6) and N-[4'-hydroxy-3'-methoxy-(E)-cinnamoyl]-L-tyrosine (13). In order to gain first insights into the NPA metabolism in vivo, urine samples were analyzed by LC-MS/MS before and after beta-glucuronidase/sulfatase treatment. As independent of the enzyme treatment the same NPA amounts were found in urine, there is strong evidence that these amides are metabolized neither via their O-glucuronides nor their O-sulfates. In order to screen for caffeic acid O-glucuronides as potential NPA metabolites, urine samples were screened by means of LC-MS/MS for caffeic acid 3-O-beta-D-glucuronide and 4-O-beta-D-glucuronide. But not even trace amounts of one of these glucuronides were detectable, thus excluding them as major NPA metabolites and underlining the importance of future investigations on a potential O-methylation or reduction of the N-phenylpropenoyl moiety in NPAs.
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PMID:Absorption of N-phenylpropenoyl-L-amino acids in healthy humans by oral administration of cocoa (Theobroma cacao). 1864 3