EC:3.2.1.31 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.31 (beta-glucuronidase)
7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effects of prolonged running exercise (5 days a week, 1.5 h per day at a speed of 17.6 m/min) on the activity of some acid hydrolases (beta-glucuronidase, beta-N-acetylglucosaminidase, acid phosphatase and cathepsin D) and three enzymes of energy metabolism (cytochrome c oxidase, lactate dehydrogenase and creatine kinase) in the distal and in the proximal, the predominantly white and red parts, respectively, of the vastus lateralis-muscle from mice. The acid hydrolase activity levels were 1.24--1.69 higher in untrained red muscle compared to untrained white muscle. The light training applied increased the activity of beta-glucuronidase in both red and white muscle. No other significant training effects were observed in the enzyme activities measured.
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PMID:beta-Glucuronidase activity in trained red and white skeletal muscle of mice. 21 65

N-acetyl-beta-glucosaminidase (EC 3.2.1.30, recommended name beta-N-Acetylglucosaminidase) was found to be a constituent of human cardiac lysosomes. beta-glucuronidase was also found in this tissue, while lysozyme, an enzyme present in leucocyte lysosomes, was not detectable in the heart. The activities of both N-acetyl-beta-glucosaminidase and beta-glucuronidase were elevated in plasma during the first 24 h after the onset of chest pain in patients with acute myocardial infarction and the peak levels of N-acetyl-beta-glucosaminidase correlated well with those of creatine kinase. N-acetyl-beta-glucosaminidase showed a further rise in plasma activity which gave a peak at 72 h after the onset of chest pain and this was accompanied by a rise in lysozyme activity. It is suggested that lysosome disruption caused by myocardial cell necrosis was responsible for the initial rise in plasma lysosomal enzyme activity and that the subsequent inflammatory reaction gave rise to the second peak.
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PMID:Plasma lysosomal enzyme activity in acute myocardial infarction. 64 16

The effects of added load (20% of body mass) on the selected enzyme activities of red and white quadriceps femoris (QF), soleus, and gastrocnemius muscles of rats were studied. The rats were divided into sedentary control (SC), sedentary control with added load (SC+AL), endurance training (ET), and endurance training with added load (ET+AL) groups (n = 10 rats/group). After 6 wk, the SC+AL group had 57% higher (P less than 0.001) beta-glucuronidase (beta-GU) activity and 24% lower (P less than 0.05) citrate synthase activity in white QF than SC. Citrate synthase activity was also decreased in red QF (P less than 0.05) after the added load was used during nontraining hours. The training with added load induced similar but more pronounced changes than normal endurance training, especially in white QF. The ET+AL group demonstrated higher citrate synthase activity in white QF (P less than 0.001) and gastrocnemius (P less than 0.01) and higher malate dehydrogenase activity (P less than 0.05) and beta-GU activity (P less than 0.001) in white QF than the ET group. ET+AL rats also had higher phosphofructokinase (P less than 0.01) and lower creatine kinase (P less than 0.001) activity in white QF than ET rats. In conclusion, the added load without training had minor adaptive influences on muscles. The added load during training hours seemed to be an effective means of influencing the activation and adaptation in muscles that contain fast glycolytic fibers.
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PMID:Muscle enzyme adaptations to added load during training and nontraining hours in rats. 202 68

Protective effect of aprotinin pretreatment was assessed by functional, biochemical and morphological preservation in four hour global ischemia followed by one hour reperfusion in dogs. Cardioplegia was induced by intermittent infusion of cold Mg-lidocaine solution. Aprotinin 10,000 KIU/kg was given in low dose group (8 dogs), and 20,000 KIU/kg in high dose group (6 dogs); one half was given before ischemia and another half during ischemia. Betamethasone, coenzyme Q and nifedipine were also given equally in both groups before ischemia. Results were as follows: 1. Four (50%) of low dose group and all of high dose group were successfully taken off CPB and survived for one hour reperfusion. 2. High dose group showed significantly higher blood pressure and LVSWI than low dose group after one hour reperfusion (p less than 0.05). 3. Serum N-acetyl-beta-D-glucosaminidase and mitochondrial aspartate aminotransferase showed the significantly lower activity in high dose group than in low dose group after one hour reperfusion (p less than 0.05). There was no significant difference in the activities of serum beta-glucuronidase and MB-creatine kinase. 4. Myocardial tissues, excised after one hour reperfusion, contained significantly higher creatine phosphate in high dose group than in low dose group (p less than 0.05). There was no significant difference in the contents of adenosine triphosphate, calcium and water. 5. Severely injured mitochondrion were significantly lesser in high dose group than in low dose group. All lysosomes showed mild swelling or enlargement, but those membranous structures were well-preserved in both groups. In conclusion, aprotinin pretreatment might be effective in myocardial protection against prolonged global ischemia, by inhibiting the "leak out" of lysosomal enzymes.
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PMID:[Improved myocardial protection by aprotinin pretreatment in prolonged global ischemia]. 248 66

In order to define the locus of acrylamide neurotoxicity, the effects of chronic intoxication (total dose 500 mg/kg) on cholinergic synthesis and transport, the Schwann cell-myelin complex, lysosomal activity, and several metabolic pathways were determined in rat sciatic nerve, spinal cord, and brain. No changes were found in hematological measures or in the levels of clinically important blood enzymes, indicating no major damage to other organs. The activities of choline acetyltransferase (ChAT), 2',3'-cyclic nucleotide phosphohydrolase, beta-glucuronidase, and lactate dehydrogenase were unaffected in acrylamide paralyzed animals, but creatine kinase (CK) decreased in sciatic nerve, muscle, and brain, particularly in animals dying of the intoxication. CK blood and the CK isoenzyme patterns in blood were unchanged. The synthesis of protein in brain and spinal cord (measured in vivo) were decreased in rats exposed to high-dose acrylamide. However, in brain and cord, CK decreased only after animals became systemically ill and suffered weight loss, with the lowest activities in those animals sick enough to die. The degree of stress to which the animals had been subjected was indicated by enlargement of the adrenal glands and decreased sulfolipid synthesis in the adrenals. Rats exposed to 25 mg/kg/day acrylamide to a total dose of 250 mg/kg developed leg weakness but not paralysis or weight loss and had a 25% decrease in CK only in the distal sciatic nerve. Because of the apparently stress-related or agonal loss of CK, no specific effect of acrylamide on the enzyme could be definitely demonstrated. Neither could the changes in protein synthesis be attributed solely to a direct effect of the toxin. These results illustrate the difficulties encountered in interpreting intoxication studies that produce systemic illness and support the suggestion that CK activity may be a useful marker of the severity and duration of the agonal state in studies of postmortem human brain.
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PMID:The influence of systemic factors on acrylamide-induced changes in brain, nerve, and other tissues. 608 44

Four enzymes related to specific cell functions were assayed in rat sciatic nerve injury by crush (cr) or crush and ligation (cr-lig) after 2, 7, and 15 days in situ. Enzyme activities in segments of sciatic nerve proximal and distal to the injury were compared to those in corresponding segments of the contralateral nerve. Choline acetyltransferase (CAT) activity in the distal portion decreased by 65% for cr and almost to zero for cr-lig by day 7, while in the proximal portions CAT decreased to 70% of control values by 7 days and to 50% at 15 days after cr-lig. The activity of the Schwann cell-myelin-associated enzyme 2',3'-cyclic nucleotide phosphohydrolase (CNP) decreased slowly distal to the injury. Distal to both types of injury the lysosomal enzyme beta-glucuronidase (GLR) increased six- to eightfold by 15 days. Proximal to injury GLR also increased (P cr X 2.5, P cr-lig X 5) but the peak proximally was attained by day 7. Despite interruption of axonally transported enzymes, the activities of the metabolic enzyme creatine kinase (CK) increased distal to injury apparently reflecting changes in the functions of the Schwann cells. The loss of metabolic enzymes from the axonal compartment may be completely obscured by reciprocal changes in the non-neuronal compartments if the activity is present in both compartments.
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PMID:Enzyme changes in axon, myelin, and Schwann cells in injured sciatic nerve. 631 Jan 39

Interpretation of biochemical measurements in the human brain after death is complicated by a variety of premortem, perimortem, and postmortem factors. The activity of glutamic acid decarboxylase (GAD) in particular has been found to vary considerably among human brains. In contrast to neurotransmitter-associated enzymes, metabolic enzymes are present in all brain cells and should not be specifically lost by patterned neuronal cell loss such as that which occurs in Parkinson disease. We compared the activity of GAD to that of the metabolic enzymes creatine kinase (CK), adenylate kinase, hexokinase, beta-glucuronidase, and malate, lactate, glucose-6-phosphate, and isocitrate dehydrogenases in 24 regions of six human brains. Of the metabolic enzymes, only CK showed a 5-fold variation approaching that of GAD. Like GAD, CK activity was stable postmortem, but its activity was apparently inversely related to the severity and duration of the preterminal illness. CK may be a useful marker of agonal deterioration.
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PMID:Regional activities of metabolic enzymes and glutamate decarboxylase in human brain. 731 90

To test a hypothesis that exercise-induced increase in serum creatine kinase activity and the concomitant necrotic muscle damage in unaccustomed rats may be interrelated phenomena, and that the first might largely be caused by changes in lymph flow, groups of rats were separately exposed to a swimming, combination of swimming and running, and running protocol. Their serum was then repeatedly analysed over a period of 72 h for creatine kinase activity, and their soleus and the red parts of quadriceps femoris muscles for beta-glucuronidase activity (damage marker) 72 h after the commencement of the experiment, i.e. at a moment when muscle damage is in the necrotic phase. The results clearly showed that serum creatine kinase activity may increase without concomitant muscle damage (swimming protocol) and that muscle damage may occur without a statistically significant increase in serum creatine kinase activity (running protocol). Swimming followed by running increased creatine kinase activity more strongly than the separate protocols. Muscle damage was of a similar magnitude after running and after the combined exercise. The present results indicate that serum creatine kinase activity in rodent exercise myopathy is an inadequate indicator of injury both quantitatively and qualitatively.
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PMID:Does increased serum creatine kinase activity reflect exercise-induced muscle damage in rats? 764 4

Male Wistar rats were made to run uphill on a treadmill 5.5 degrees incline at 17 m min-1 for 4 h, and killed for muscle and serum sampling 2, 4, 12, 24, 48 or 96 h after the exertion. To estimate the degree of muscle damage, beta-glucuronidase activity, total protein concentration, water content and morphology were examined in the red parts of quadriceps femoris (MQF) and soleus (MS) muscles, the distal white part of the rectus femoris muscle (MRF) and the superficial part of triceps brachii muscle (MTB). Simultaneous serum samples were assayed for creatine kinase (CK) activity and carbonic anhydrase III (CA III) concentration. Fibre swelling and interstitial oedema were detected in MS at 4 h and in MQF at 12 h and typical histopathological changes, including inflammation and fibre necrosis, in both muscles 12-96 h post-exertion. beta-Glucuronidase activity, a quantitative marker of muscle damage, was increased in MS at 4 h, in MQF at 24 h and in MRF 48 h after the running. No increase occurred in MTB. Water and protein content increased or decreased respectively, faster in MS (2 h post-exercise) than in MQF (12 h) or MRF (12 h). Water content thus contributed to muscle damage by preceding the increase in beta-glucuronidase activity. Serum CK activity was increased 2, 4, and 48 h after the running. Changes in serum CA III concentration were rather similar to those in CK but were not significant.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Exercise-induced necrotic muscle damage and enzyme release in the four days following prolonged submaximal running in rats. 781 56

The relationships and time course of exercise-induced muscle damage, estimated by beta-glucuronidase activity and microscopy, to muscle swelling, estimated by muscle water content and microscopy, and to the serum activity of creatine kinase (CK) and the concentration of carbonic anhydrase III were studied in rats 2, 12, 48, and 96 h after 90 min of intermittent running uphill (+13.5 degrees) or downhill (-13.5 degrees) at a speed of 17 m/min. The injury was more pronounced in soleus after uphill running and in the red parts of quadriceps femoris and in the white part of vastus lateralis after downhill running, whereas triceps brachii was not damaged. Increase in muscle water content preceded the increase of beta-glucuronidase activity. Both running protocols similarly increased serum CK 2 h postexercise. After downhill running a second peak in serum CK was observed 48 h later. The CK changes were not in concert with the changes in muscle water content or beta-glucuronidase activity, suggesting that these responses may not be mechanistically (or causally) related.
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PMID:Running-induced muscle injury and myocellular enzyme release in rats. 786 48

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