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 biosynthesis of myeloperoxidase in human promyelocytic leukemia HL-60 cells was studied by pulse-chase and immunoprecipitation methods and separation of subcellular organelles using Percoll density gradient fractionation. These studies revealed that in control and monensin (1 microM) treated cells, more than 85% of the total immunoprecipitable radiolabeled myeloperoxidase was present predominantly in precursor form (Mr 91,000) and resided in lower density compartments after an initial 3-h labeling period. Using biochemical and ultrastructural techniques, the lower density regions of the gradient were found to contain elements of the endoplasmic reticulum and the Golgi complex. Following a 16-h chase period, about 70% of the radiolabeled myeloperoxidase in untreated cells was found predominantly in denser regions of the gradient and was present mainly in the form of the mature large subunit (Mr 63,000). These dense regions were shown to contain azurophilic granules by means of the distribution of beta-glucuronidase and myeloperoxidase activities and by electron microscopy. Processing of myeloperoxidase and its deposition into dense granules were blocked by monensin treatment. Following a 16-h chase period in the presence of monensin, approximately 80% of the radiolabeled myeloperoxidase continued to reside in lower density compartments and was predominantly in precursor (Mr 91,000) and intermediate (Mr 81,000 and 74,000) forms. Only about 10% of the radiolabeled myeloperoxidase was associated with dense azurophilic granules. Monensin treatment produced large, Golgi-derived vacuoles which were isolated using Percoll density centrifugation and identified by electron microscopy. These vacuoles were found to be essentially devoid of peroxidase activity and pulse-labeled, newly synthesized radiolabeled myeloperoxidase species. The effects of monensin on transport and processing were reversible after a 3-h exposure and 16-h chase period in the absence of monensin. Taken together, these data indicate that maturation of myeloperoxidase is closely linked to its deposition into dense azurophilic granules via a monensin-sensitive process(es). The lower density compartments within which immature myeloperoxidase species accumulate in the presence of monensin appear to be functionally related to or associated with Golgi or endoplasmic reticulum structures distinct from the large monensin-induced vacuoles.
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PMID:Biochemical and ultrastructural effects of monensin on the processing, intracellular transport, and packaging of myeloperoxidase into low and high density compartments of human leukemia (HL-60) cells. 282 13

The subcellular distribution of beta-glucuronidase acquired by deficient human fibroblasts during co-culture with peritoneal macrophages was compared with that taken up by receptor-mediated endocytosis. Labelled enzyme taken up via receptors was located initially in a low-density endosomal fraction and was transferred to lysosomes within a few minutes. The beta-glucuronidase acquired during 24 h of co-culture was present almost entirely within lysosomes and had a distribution profile identical with that of endogenous beta-hexosaminidase. Monensin prevented transfer of radiolabelled enzyme from endosomes to lysosomes and had a similar effect on the distribution of enzyme acquired by direct transfer, causing beta-glucuronidase to accumulate within endosomes. When the temperature was lowered from 37 degrees C to 19 degrees C, the rate of transfer of enzyme from endosomes to lysosomes was decreased during both direct transfer and indirect receptor-mediated endocytosis. These results show that a lysosomal enzyme acquired by direct transfer during cell-to-cell contact follows a similar intracellular route and has a similar distribution to that of enzymes taken up via cell-surface receptors.
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PMID:Intracellular localization of beta-glucuronidase in fibroblasts after direct transfer from macrophages. 290 40

Mouse peritoneal macrophages were cultured for 3 days with or without zymosan and at the same time exposed to various inhibitors of cellular metabolism. The cells were assayed for selective release of a lysosomal enzyme, and for cytotoxic activity against a tumor cell line, L-929-cells. Selective release of beta-glucuronidase was demonstrated in the supernatants from zymosan-stimulated macrophages. The stimulated macrophages were cytotoxic for the tumors cells, evaluated by measuring release of radioactivity during subsequent 4 days' co-culture of macrophages and 14C-thymidine-labelled tumor cells, and by counting cells per culture. Colchicine caused a slight, variable reduction in enzyme release and no change in cytotoxic effect from stimulated macrophages. Monensin decreased extracellular enzyme secretion and reduced the cytotoxicity in stimulated macrophages to control levels. Chloroquine caused a similar reduction in lysosomal enzyme release and cytotoxic activity in zymosan-stimulated cells. This inhibitor increased the enzyme release from control cells and induced a small, variable cytotoxic effect from these cells. The data indicate co-variation between macrophage-mediated cytotoxicity and a secretory process which can be blocked by monensin. The need for intact lysosomal function was also demonstrated.
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PMID:Cytotoxic activity of stimulated mouse macrophages exposed to various inhibitors. 371 7

Binding studies with cells that had been permeabilized with saponin indicate that alveolar macrophages have an intracellular pool of mannose-specific binding sites which is about 4-fold greater than the cell surface pool. Monensin, a carboxylic ionophore which mediates proton movement across membranes, has no effect on binding of ligand to macrophages but blocks receptor-mediated uptake of 125I-labelled beta-glucuronidase. Inhibition of uptake was concentration- and time-dependent. Internalization of receptor-bound ligand, after warming to 37 degrees C, was unaffected by monensin. Moreover, internalization of ligand in the presence of monensin resulted in an intracellular accumulation of receptor-ligand complexes. The monensin effect was not dependent on the presence of ligand, since incubation of macrophages with monensin at 37 degrees C without ligand resulted in a substantial decrease in cell-surface binding activity. However, total binding activity, measured in the presence of saponin, was much less affected by monensin treatment. Removal of monensin followed by a brief incubation at pH 6.0 and 37 degrees C, restored both cell-surface binding and uptake activity. Fractionation experiments indicate that ligands enter a low-density (endosomal) fraction within the first few minutes of uptake, and within 20 min transfer to the lysosomal fraction has occurred. Monensin blocks the transfer from endosomal to lysosomal fraction. Lysosomal pH, as measured by the fluorescein-dextran method, was increased by monensin in the same concentration range that blocked ligand uptake. The results indicate that monensin blockade of receptor-mediated endocytosis of mannose-terminated ligands by macrophages is due to entrapment of receptor-ligand complexes and probably receptors in the pre-lysosomal compartment. The inhibition is linked with an increase in the pH of acid intracellular vesicles.
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PMID:Monensin inhibits recycling of macrophage mannose-glycoprotein receptors and ligand delivery to lysosomes. 608 92