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)

The working hypothesis of many studies of shock has been that naloxone acts by blocking centrally and/or peripherally located opioid receptors. At plasma concentrations used to treat experimental shock (10(-6) M and above), naloxone inhibited the in vitro release of superoxide (O2-) by human neutrophils that were stimulated by the E. coli peptide N-formyl methionyl leucyl phenylalanine (FMLP). Superoxide release stimulated by phorbol 12,13-dibutyrate (PDB) was also inhibited by naloxone. Naloxone had no effect on the FMLP-stimulated release of beta-glucuronidase or lysozyme. Naloxone had no effect on 3H FMLP receptor binding. Studies utilizing 3H naloxone revealed the presence of a ligand-specific naloxone binding site on human neutrophils with a Kd of 1.2 X 10(-5) M, which is close to the ID50 of the inhibitory effect upon O2- release (1.8 X 10(-5). Thyrotropin releasing factor (TRF) had no effect upon 3H naloxone binding or on O2- release. Verapamil, a calcium channel blocker, inhibited 3H naloxone binding, and O2- release while nifedipine, another calcium channel blocker had no effect on either assay except at 10(-4) M, at which concentration 3H naloxone binding as well as the release of O2- were increased. These experiments suggest that the inhibitory effect of naloxone upon O2- release is mediated via a specific binding site.
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PMID:Inhibition by naloxone of neutrophil superoxide release: a potentially useful antiinflammatory effect. 302 81

The purpose of these studies was to establish whether extracellular calcium (Cao2+) plays a role in the process of activation of RAW-264 macrophages for tumor cell killing. We found that these cells were capable of developing a significant level of cytolytic activity under treatment with lymphokine (LK) and lipopolysaccharide (LPS), in the absence of Cao2+ and that responses developed in Ca2+-free media were only 6-18% lower in comparison with the responses developed in the presence of Cao2+. The determination of 45calcium uptake in RAW-264 cells treated with LK and LPS showed that the rate of 45calcium uptake has displayed no increase during either the course of activation or in activated, highly cytolytic cells. Finally, three calcium channel blockers examined here: verapamil, diltiazem and flunarizine, with concentrations ranging from 1 X 10(-7) M - 2.5 X 10(-5) M, showed no inhibitory effect on the process of activation. Nifedipine, another calcium channel blocker, inhibited the development of cytolytic activity with concentrations ranging from 1 X 10(-6) M - 2.5 X 10(-5) M. It could be argued, however, that this inhibition was nonspecific, since this agent was 13 times more potent with regard to the calcium ionophore A23187-induced release of beta-glucuronidase, the function which is entirely dependent on Cao2+. Taken together, these results suggest that Cao2+ is not an absolute requirement for the process of tumoricidal activation of RAW-264 macrophages but it may play some supportive role in this process.
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PMID:Extracellular calcium is not an absolute requirement for tumoricidal activation of RAW-264 macrophage-like cell line. 346 Oct 96

The rabbit polymorphonuclear neutrophil degranulation response to 1-O-alkyl-2-O-acetyl-sn-glycero-3-phosphocholine depends on extracellular calcium. In the absence of this bivalent cation, neutrophil suspensions pretreated with cytochalasin B responded to the lipid by releasing minimal amounts of lysozyme and beta-glucuronidase. Incremental increases in extracellular calcium over a range of 20-200 microM led to increasing amounts of lipid-stimulated enzyme release. In contrast, extracellular magnesium neither supported nor enhanced the degranulation responses. Verapamil (25-200 microgram/ml), a calcium channel blocker, inhibited degranulation. Neutrophil suspensions exposed to the phosphocholine stimulus rapidly took up radiolabeled extracellular calcium. The kinetics of this calcium uptake were similar to the kinetics of enzyme release, and the amount of calcium taken up correlated closely with the amount of released lysozyme and beta-glucuronidase. Finally, in a dosage which blocked degranulation, verapamil inhibited calcium uptake. Thus, the rapid association of extracellular calcium with the neutrophil may mediate, at least in part, the degranulating actions of the phosphocholine stimulus.
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PMID:Role of extracellular calcium and neutrophil degranulation responses to 1-O-alkyl-2-O-acetyl-sn-glycero-3-phosphocholine. 627 Oct 16

The synergistic effect of nicorandil (K(ATP) channel opener) and amlodipine (calcium channel blocker) on lysosomal hydrolases in serum and heart was examined by determining the activity of beta-glucuronidase, beta-N-acetyl glucosaminidase, beta-galactosidase, cathepsin-D and acid phosphatase on isoproterenol-induced myocardial infarction in rats. The rats given isoproterenol (150 mg kg(-1) daily, i.p.) for 2 d showed significant increase in serum and heart lysosomal hydrolases activity. Isoproterenol administration to rats resulted in decreased stability of the membranes, which was reflected by the lowered activity of cathepsin-D and beta-glucuronidase in mitochondrial, nuclear, lysosomal and microsomal fractions. Pretreatment with nicorandil (2.5 mg kg(-1) daily, p.o.) and amlodipine (5.0 mg kg(-1) daily, p.o.) for 3 d significantly prevented these alterations and restored the enzyme activity to near normal. These findings demonstrate that the pretreatment with nicorandil and amlodipine could preserve lysosomal integrity and hence establish the cardioprotective effect of the combination.
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PMID:Synergistic effect of nicorandil and amlodipine on lysosomal hydrolases during experimental myocardial infarction in rats. 1449 79

A promising development in tumor therapy is the application of non-toxic prodrugs from which the active cytostatic is released by endogenous enzymes such as beta-glucuronidase (beta-gluc). Regulation of beta-gluc expression is one crucial factor modulating bioactivation of prodrugs. Recent experiments in rats indicate regulation of beta-gluc activity by the calcium channel blocker verapamil. To further explore this phenomenon, we investigated the effect of verapamil on beta-gluc enzyme activity, protein (western blot) and mRNA expression (RT-PCR) as well as the underlying mechanisms (effects of verapamil metabolites; promoter activity) in the human hepatoma cell line HepG2. Treatment of HepG2 cells with verapamil revealed down-regulation of beta-gluc activity, protein, and mRNA level down to 50% of the control with EC(50) values of 25 microM. Effects were similar for both enantiomers. Moreover, it was demonstrated that reduced promoter activity contributes to the observed effects. In summary, our data demonstrate regulation of human beta-glucuronidase expression by verapamil. Based on our findings we hypothesize that coadministration of verapamil may effect cleavage of glucuronides by beta-glucuronidase.
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PMID:Verapamil regulates activity and mRNA-expression of human beta-glucuronidase in HepG2 cells. 1461 98

Blood calcium concentration is maintained within a narrow range despite large variations in dietary input and body demand. The Transient Receptor Potential ion channel TRPV5 has been implicated in this process. We report here that TRPV5 is stimulated by the mammalian hormone klotho. Klotho, a beta-glucuronidase, hydrolyzes extracellular sugar residues on TRPV5, entrapping the channel in the plasma membrane. This maintains durable calcium channel activity and membrane calcium permeability in kidney. Thus, klotho activates a cell surface channel by hydrolysis of its extracellular N-linked oligosaccharides.
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PMID:The beta-glucuronidase klotho hydrolyzes and activates the TRPV5 channel. 1623 75

Klotho gene mutation leads to a syndrome strangely resembling chronic kidney disease patients undergoing dialysis with multiple accelerated age-related disorders, including hypoactivity, sterility, skin thinning, muscle atrophy, osteoporosis, vascular calcifications, soft-tissue calcifications, defective hearing, thymus atrophy, pulmonary emphysema, ataxia, and abnormalities of the pituitary gland, as well as hypoglycemia, hyperphosphatemia, and paradoxically high-plasma calcitriol levels. Conversely, mice overexpressing klotho show an extended existence and a slow aging process through a mechanism that may involve the induction of a state of insulin and oxidant stress resistance. Two molecules are produced by the klotho gene, a membrane bound form and a circulating form. However, their precise biological roles and molecular functions have been only partly deciphered. Klotho can act as a circulating factor or hormone, which binds to a not yet identified high-affinity receptor and inhibits the intracellular insulin/insulin-like growth factor-1 (IGF-1) signaling cascade; klotho can function as a novel beta-glucuronidase, which deglycosylates steroid beta-glucuronides and the calcium channel transient receptor potential vallinoid-5 (TRPV5); as a cofactor essential for the stimulation of fibroblast growth factor (FGF) receptor by FGF23. The two last functions have propelled klotho to the group of key factors regulating mineral and vitamin D metabolism, and have also stimulated the interest of the nephrology community. The purpose of this review is to provide a nephrology-oriented overview of klotho and its potential implications in normal and altered renal function states.
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PMID:Klotho: an antiaging protein involved in mineral and vitamin D metabolism. 2241 41

Demonstrating 1,25(OH)2D3-stimulated calcium uptake in isolated chick intestinal epithelial cells has been complicated by simultaneous enhancement of both uptake and efflux. We now report that in intestinal cells of adult birds, or those of young birds cultured for 72 h, 1,25(OH)2D3-stimulates 45Ca uptake to greater than 140% of corresponding controls within 3 min of addition. Such cells have lost hormone-stimulated protein kinase C (PKC) activity, believed to mediate calcium efflux. To further test this hypothesis, freshly isolated cells were preincubated with calphostin C, and calcium uptake monitored in the presence or absence of steroid. Only cells treated with the PKC inhibitor demonstrated a significant increase in 45Ca uptake in response to 1,25(OH)2D3, relative to corresponding controls. In addition, phorbol ester was shown to stimulate efflux, while forskolin stimulated uptake. To further investigate the mechanisms involved in calcium uptake, we assessed the role of TRPV6 and its activation by beta-glucuronidase. beta-Glucuronidase secretion from isolated intestinal epithelial cells was significantly increased by treatment with 1,25(OH)2D3, PTH, or forskolin, but not by phorbol ester. Treatment of cells with beta-glucuronidase, in turn, stimulated 45Ca uptake. Finally, transfection of cells with siRNA to either beta-glucuronidase or TRPV6 abolished 1,25(OH)2D3-enhanced calcium uptake relative to controls transfected with scrambled siRNA. Confocal microscopy further indicated rapid redistribution of enzyme and calcium channel after steroid. 1,25(OH)2D3 and PTH increase calcium uptake by stimulating the PKA pathway to release beta-glucuronidase, which in turn activates TRPV6. 1,25(OH)2D3-enhanced calcium efflux is mediated by the PKC pathway.
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PMID:Membrane receptor-initiated signaling in 1,25(OH)2D3-stimulated calcium uptake in intestinal epithelial cells. 1877 29

The discovery that two recently identified molecules, klotho and fibroblast growth factor 23 (FGF23), played an important role in calcium, phosphate, and vitamin D metabolism has transformed our traditional physiological view in which bone and mineral homeostasis was mainly regulated by parathyroid hormone, vitamin D, and calcitonin, according to mineral body needs. FGF23 is a 251-amino acid secreted protein produced by osteoblasts and osteocytes in bone following the stimulation by phosphate and vitamin D or the inhibition by dentin matrix protein 1. Originally isolated from tumoral cells of patients with tumor-induced osteomalacia and hypophosphatemia, FGF23 inhibits phosphate reabsorption in renal proximal tubular cells and 1alpha-hydroxylase activity, resulting in decreased synthesis of calcitriol. To exert these actions, FGF23 requires the conversion, by klotho, of the canonical FGF receptor 1 (IIIc) in a specific high affinity FGF23 receptor. On the other hand, klotho is a putative antiaging gene identified in 1997 when a particular mouse strain, created by random insertion mutagenesis, was found to be short-lived and displayed premature atherosclerosis, osteopenia, skin atrophy, pulmonary emphysema, hyperphosphatemia, hypercalcemia, and high serum calcitriol levels. The gene of klotho encodes a 1012-amino acid cell-surface protein with a short cytoplasmic tail and an extracellular domain that consists in tandem duplicated copies of a beta-glucuronidase-like sequence, which can be released into the circulation as soluble forms after being cleaved by metalloproteinases such as ADAM10 and ADAM17. By modulating FGF23 action, klotho regulates urinary phosphate excretion and calcitriol synthesis. By virtue of its beta-glucuronidase activity, klotho deglycosylates the calcium channel TRPV5 (transient receptor potential vallinoid-5) and regulates urinary calcium excretion. klotho also binds to Na(+),K(+)-ATPase in parathyroid cells and regulates calcium-stimulated PTH secretion. Finally, klotho extends life span via several mechanisms, including the reduction of calcitriol synthesis, serum calcium, and phosphorus levels; the induction of insulin resistance; and by increasing the resistance to oxidative stress.
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PMID:Klotho gene, phosphocalcic metabolism, and survival in dialysis. 1912 71