Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.53 (sialidase)
 2,694 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Deoxyribonuclease II (DNase II) was purified from the urine of a 48-year-old male (a single individual) using a column chromatography series, including concanavalin A-agarose and an immunoaffinity column utilizing anti-human spleen DNase II antibody, and was then characterized. Based on the catalytic properties of the purified enzyme, we have devised a technique of isoelectric focusing by thin-layer polyacrylamide gel electrophoresis (IEF-PAGE) combined with a specific zymogram method, for investigating the possible molecular heterogeneity of human DNase II. DNase II in urine as well as the purified form was found to exist in multiple forms with different pI values separable by IEF-PAGE within a pH range of 5-7. Since sialidase treatment of the urine sample induced simplification of the isoenzyme patterns with diminishment of anodal bands, it was clear that the multiplicity of the enzyme was in part due to differences in the sialic acid content. On screening of DNase II isoenzyme patterns in urine samples from more than 200 Japanese individuals, only the common isoenzyme pattern was observed and no electrophoretic variations were detected. However, genetic studies of urinary enzyme activity and comparative studies on the activity in urine, semen and leukocytes from the same individuals suggest that the enzyme activity level of DNase II may be under genetic control. The enzyme was widely distributed in human tissues and showed high activities in secretory body fluids such as breast milk, saliva, semen and urine, and leukocyte lysates.
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PMID:Human urine deoxyribonuclease II (DNase II) isoenzymes: a novel immunoaffinity purification, biochemical multiplicity, genetic heterogeneity and broad distribution among tissues and body fluids. 154 Jun 51

IEF can be used to differentiate human urinary erythropoietin (uEPO), recombinant human erythropoietin or epoetin (rEPO) and darbepoetin (novel erythropoiesis stimulating protein (NESP)). This is the basis of the method currently used to detect misuse of rEPO and NESP by elite athletes. Recently, an unknown activity has been attributed to some urine samples (denominated 'unstable' urine by the World Anti-Doping Agency; WADA). This activity has shown to give rise to artefactual profiles for both rEPO and NESP when incubated with such urine and, thus, raised concerns with respect to doping control. We have evaluated which charges produce the characteristic IEF profiles of uEPO, rEPO and NESP and how these profiles respond to distinct enzymatic reactions. From sialidase digestions it became evident that only uEPO contains charges different from sialic acid, and a comparison of all substances after complete de-N-glycosylation localized these charges in the carbohydrate moiety. Partial desialylation, or digestion with arylsulfatase from Helix pomatia yielded profiles for recombinants species similar to those observed for unstable urine samples. The contributions from our studies to the anti-doping problem include: (i) protocols that may corroborate the potential misuse of rEPO or NESP based on the particular enzymatic activity of an arylsulfatase preparation, or a broad-specificity sialidase; (ii) assurance that the instability observed in some urine samples may only result from false-negatives, but not from false-positive testing; and (iii) a simple remedy to prevent an unstable urine from altering the IEF profile by adding selective competitive substrates.
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PMID:Assessing the instability of the isoelectric focusing patterns of erythropoietin in urine. 1705 82