Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.21 (beta-glucosidase)
 3,280 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Centrifugation of homogenates of bovine retinas to isopycnic equilibrium in sucrose density gradients yielded three partially overlapping bands of particles which were, in the order of increasing density: (a) photoreceptor cell (rod) outer segments; (b) plasma membranes, lysosomes, and large fragments of endoplasmic reticulum; and (c) mitochondria. The only enzyme activity investigated which had a peak coinciding only with outer segment fractions was guanylate cyclase. Enzyme activities with peaks in both the outer segment and denser fractions included 5'-nucleotidase and cyclic GMP phosphodiesterase. Enzyme activities with peaks only in the denser fractions included sodium and potassium ion-activated ATPase ((Na+ + K+)-ATPase), adenylate cyclase, cyclic AMP phosphodiesterase, beta-glucosidase, beta-galactosidase, and succinate-dependent cytochrome c reductase. These results suggest that some of the activities once thought to be present in rod outer segments are actually present in particles from elsewhere in the retina which contaminate rod outer segment preparations.
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PMID:Distribution of enzyme activities in subcellular fractions of bovine retina. 0 65

Gastric mucosal PG E2 receptors are the common antisecretory working point of all prostanoid types and may also be involved in "protective" effects. We investigated the subcellular localization of these receptors, as measured by displaceable 3H-PG E2 binding, and identified different organelles by monitoring the activities of specific marker enzymes. Porcine mucosal homogenates were subdivided by differential centrifugation into fractions P1 (1000 x g), P2 (20,000 x g), P3 (300,000 x g) and the supernatant S1. P3 was further fractionated over a series of sucrose step gradients. Mitochondria and lysosomes were enriched in P2 (maximum specific activities of cytochrome-c-oxidase of beta-glucosidase, beta-glucuronidase, beta-galactosidase, respectively). Plasma membranes (alkaline phosphatase, gamma-glutamyl-transpeptidase, 5-nucleotidase), tubulovesicles (H+/K(+)-ATPase) and rough endoplasmic reticulum (NADPH-cytochrome-c-reductase) were mainly found in P3, which also contained the majority of 3H-PG E2 binding sites. In contrast, prostanoid binding was barely detectable in S1. Density fractionation of P3 revealed that 3H-PG E2 binding sites shared a similar sedimentation profile with plasma membranes and tubulovesicular markers. No or negative correlation was found with lysosomes, rough endoplasmic reticulum and mitochondria. We conclude that mucosal PG E2 receptors are predominantly located at the cell surface. This supports the view that prostanoids inhibit gastric secretion through membrane receptors, but gives no clue for intracellular "protective" working points.
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PMID:Subcellular localization of prostaglandin E2 receptors in the gastric mucosa. 134 83

Although previous studies have indicated that N-linked oligosaccharides on lysosomal enzymes in Dictyostelium discoideum are extensively phosphorylated and sulfated, the role of these modifications in the sorting and function of these enzymes remains to be determined. We have used radiolabel pulse-chase, subcellular fractionation, and immunofluorescence microscopy to analyze the transport, processing, secretion, and sorting of two lysosomal enzymes in a mutant, HL244, which is almost completely defective in sulfation. [3H]Mannose-labeled N-linked oligosaccharides were released from immunoprecipitated alpha-mannosidase and beta-glucosidase of HL244 by digestion with peptide: N-glycosidase. The size, Man9-10GlcNAc2, and processing of the neutral species were similar to that found in the wild type, but the anionic oligosaccharides were less charged than those from the wild-type enzymes. All of the negative charges on the oligosaccharides for HL244 were due to the presence of 1, 2, or 3 phosphodiesters and not to sulfate esters. The rate of proteolytic processing of precursor forms of alpha-mannosidase and beta-glucosidase to mature forms in HL244 was identical to wild type. The precursor polypeptides in the mutant and the wild type were membrane associated until being processed to mature forms; therefore, sulfated sugars are not essential for this association. Furthermore, the rate of transport of alpha-mannosidase and beta-glucosidase from the endoplasmic reticulum to the Golgi complex was normal in the mutant as determined by the rate at which the newly synthesized proteins became resistant to the enzyme, endo-beta-N-acetylglucosaminidase H. There was no increase in the percentage of newly synthesized mutant precursors which escaped sorting and were secreted, and the intracellularly retained lysosomal enzymes were properly localized to lysosomes as determined by fractionation of cell organelles on Percoll gradients and immunofluorescence microscopy. However, the mutant secreted lysosomally localized mature forms of the enzymes at 2-fold lower rates than wild-type cells during both growth and during starvation conditions that stimulate secretion. Furthermore, the mutant was more resistant to the effects of chloroquine treatment which results in the missorting and oversecretion of lysosomal enzymes. Together, these results suggest that sulfation of N-linked oligosaccharides is not essential for the transport, processing, or sorting of lysosomal enzymes in D. discoideum, but these modified oligosaccharides may function in the secretion of mature forms of the enzymes from lysosomes.
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PMID:Sulfated N-linked oligosaccharides affect secretion but are not essential for the transport, proteolytic processing, and sorting of lysosomal enzymes in Dictyostelium discoideum. 211 25

The endoplasmic reticulum-localized enzyme alpha-glucosidase II is responsible for removing the two alpha-1,3-linked glucose residues from N-linked oligosaccharides of glycoproteins. This activity is missing in the modA mutant strain, M31, of Dictyostelium discoideum. Results from both radiolabeled pulse-chase and subcellular fractionation experiments indicate that this deficiency did not prevent intracellular transport and proteolytic processing of the lysosomal enzymes, alpha-mannosidase and beta-glucosidase. However, the rate at which the glucosylated precursors left the rough endoplasmic reticulum was several-fold slower than the rate at which the wild-type precursors left this compartment. Retention of glucose residues did not disrupt the binding of the precursor forms of the enzymes with intracellular membranes, indicating that the delay in movement of proteins from the ER did not result from lack of association with membranes. However, the mutant alpha-mannosidase precursor contained more trypsin-sensitive sites than did the wild-type precursor, suggesting that improper folding of precursor molecules might account for the slow rate of transport to the Golgi complex. Percoll density gradient fractionation of extracts prepared from M31 cells indicated that the proteolytically processed mature forms of alpha-mannosidase and beta-glucosidase were localized to lysosomes. Finally, the mutation in M31 may have other, more dramatic, effects on the lysosomal system since two enzymes, N-acetylglucosaminidase and acid phosphatase, were secreted much less efficiently from lysosomal compartments by the mutant strain.
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PMID:Biogenesis of lysosomal enzymes in the alpha-glucosidase II-deficient modA mutant of Dictyostelium discoideum: retention of alpha-1,3-linked glucose on N-linked oligosaccharides delays intracellular transport but does not alter sorting of alpha-mannosidase or beta-glucosidase. 250 71

We have examined the relationship of N-linked oligosaccharide structures to the proper targeting and proteolytic processing of two lysosomal enzymes, alpha-mannosidase and beta-glucosidase, in the slime mold Dictyostelium discoideum. Two different mutant strains, HL241 and HL243, each synthesize the same nonglucosylated, truncated, lipid-linked oligosaccharide precursor, Man6GlcNAc2. [3H]Mannose-labeled N-linked oligosaccharides were studied following their release from immunoprecipitated alpha-mannosidase and beta-glucosidase by digestion with peptide:N-glycosidase F. The oligosaccharides from both mutants resembled each other, but they were smaller and contained fewer anionic groups than those from the wild-type. The oligosaccharides from the mutants strains were reduced in sulfate and Man-6-P content, and all Man-6-P was in the form of acid-stable phosphodiesters. Pulse-chase radiolabeling experiments using [35S] methionine indicated that the precursor forms of both enzymes were smaller than wild-type, and that this difference was due solely to differences in N-linked oligosaccharides. The precursor forms of the enzymes were not over-secreted, but appeared to be proteolytically processed into mature forms at approximately 50% the rate of wild-type. This is mainly due to their prolonged retention in the rough endoplasmic reticulum, but, ultimately, both enzymes were properly targeted to lysosomes. These studies indicate that a reduction in the amount of sulfation, phosphorylation or size of the N-linked oligosaccharides in these mutants is not critical for the proteolytic processing and targeting of the lysosomal enzymes, but that these changes may influence their rate of exit from the rough endoplasmic reticulum.
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PMID:The effects of altered N-linked oligosaccharide structures on maturation and targeting of lysosomal enzymes in Dictyostelium discoideum. 250 75

To explain the different secretion kinetics of lysosomal enzymes in Dictyostelium discoideum, previous investigators have hypothesized the existence of a heterogeneous population of lysosomes containing either the enzyme acid phosphatase or other hydrolase enzymes. This proposal predicts that at least two targeting mechanisms exist for lysosomal enzymes in this organism. To begin to investigate this possibility, the transport, processing, and targeting of acid phosphatase was studied by using a combination of radiolabel pulse-chase procedures, subcellular fractionations, and indirect immunofluorescence microscopy. Acid phosphatase was initially synthesized in axenically growing cells as a 56-kDa precursor polypeptide that was proteolytically processed after 20 min to a 55-kDa mature protein. This enzyme was rapidly transported from the endoplasmic reticulum to Golgi complex (halftime of 3 min) as measured by the acquisition of resistance to the enzyme endoglycosidase H. Furthermore, Percoll gradient fractionations indicated that radiolabeled forms of acid phosphatase reached dense lysosomal vesicles at about the same time as final processing was occurring. Proper sorting of acid phosphatase in D. discoideum apparently was not critically dependent on low intravacuolar pH since the addition of ammonium chloride did not stimulate the missorting and secretion of acid phosphatase. These results are very similar to previous observations concerning other Dictyostelium lysosomal enzymes. Consistent with the existence of a heterogeneus population of lysosomes, the percentage of radiolabeled acid phosphatase secreted 4 h into a chase period was 15-fold lower as compared with another lysosomal enzyme, beta-glucosidase. However, acid phosphatase, alpha-mannosidase, and beta-glucosidase were all predominantly colocalized as determined by indirect immunofluorescence, which for the first time demonstrates the homogeneous nature of the lysosomal system in D. discoideum. Taken together these results suggest that the processing and transport of acid phosphatase may be similar in nature to the glycosidases. However, the different kinetics of secretion of acid phosphatase versus the colocalized glycosidase enzymes suggests that an undefined mechanism operates to distinguish these classes of enzymes at a step after localization to lysosomes but prior to secretion.
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PMID:Processing, transport, and secretion of the lysosomal enzyme acid phosphatase in Dictyostelium discoideum. 265 46

We are investigating the molecular mechanisms involved in the localization of lysosomal enzymes in Dictyostelium discoideum, an organism that lacks any detectable mannose-6-phosphate receptors. The lysosomal enzymes alpha-mannosidase and beta-glucosidase are both initially synthesized as precursor polypeptides that are proteolytically processed to mature forms and deposited in lysosomes. Time course experiments revealed that 20 min into the chase period, the pulse-labeled alpha-mannosidase precursor (140 kD) begins to be processed, and 35 min into the chase 50% of the polypeptides are cleaved to mature 60 and 58-kD forms. In contrast, the pulse-labeled beta-glucosidase precursor (105 kD) begins to be processed 10 min into the chase period, and by 30 min of the chase all of the precursor has been converted into mature 100-kD subunits. Between 5 and 10% of both precursors escape processing and are rapidly secreted from cells. Endoglycosidase H treatment of immunopurified radioactively labeled alpha-mannosidase and beta-glucosidase precursor polypeptides demonstrated that the beta-glucosidase precursor becomes resistant to enzyme digestion 10 min sooner than the alpha-mannosidase precursor. Moreover, subcellular fractionation studies have revealed that 70-75% of the pulse-labeled beta-glucosidase molecules move from the rough endoplasmic reticulum (RER) to the Golgi complex less than 10 min into the chase. In contrast, 20 min of chase are required before 50% of the pulse-labeled alpha-mannosidase precursor exits the RER. The beta-glucosidase and alpha-mannosidase precursor polypeptides are both membrane associated along the entire transport pathway. After proteolytic cleavage, the mature forms of both enzymes are released into the lumen of lysosomes. These results suggest that beta-glucosidase is transported from the RER to the Golgi complex and ultimately lysosomes at a distinctly faster rate than the alpha-mannosidase precursor. Thus, our results are consistent with the presence of a receptor that recognizes the beta-glucosidase precursor more readily than the alpha-mannosidase precursor and therefore more quickly directs these polypeptides to the Golgi complex.
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PMID:Lysosomal enzymes in Dictyostelium discoideum are transported to lysosomes at distinctly different rates. 308 90

Dictyostelium discoideum strain HMW-426 has been previously shown to be defective in the proteolytic processing of the lysosomal enzyme precursor to alpha-mannosidase. We have now shown that the mutant is defective in the proteolytic processing of a second lysosomal enzyme, beta-glucosidase. Digestion of the HMW-426 alpha-mannosidase and beta-glucosidase precursors with endoglycosidase H revealed that the majority of oligosaccharide side chains on both precursors were sensitive to cleavage by this enzyme, indicating that both precursors fail to reach the Golgi apparatus. Subcellular fractionation experiments demonstrated that these two mutant precursors accumulated inside the lumen of the rough endoplasmic reticulum. The alpha-mannosidase precursor is conformationally altered, as evidenced by its abnormal protease susceptibility, suggesting that altered conformation is responsible for a generalized defect in transport of lysosomal protein precursors from the rough endoplasmic reticulum in the mutant.
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PMID:A single mutation prevents the normal intracellular transport of multiple lysosomal proteins from the rough endoplasmic reticulum. 311 35

The enzyme-gold approach was applied for ultrastructural localization of glucoside residues in animal and plant tissues. A beta-glucosidase-gold complex was prepared and used on thin tissue sections to reveal the corresponding substrate molecules by electron microscopy. Conditions for preparation of the complex, as well as for its application, were determined. Once applied on thin tissue sections, the glucosidase-gold complex yielded labeling over the rough endoplasmic reticulum, mainly on the ribosomal side of the membranes, and over the dense chromatin in the nucleus. Mitochondria, Golgi apparatus, and secretory granules in liver and pancreatic cells were free of gold particles. In plant cells, the labeling pattern was similar. In addition, the stroma regions of chloroplasts were densely labeled. In the extracellular space, labeling was found over the basal laminae of cells in animal tissues and over the fibrillar wall material bordering the intercellular space in plant tissues. Fungal cell cytoplasm was also labeled, as well as the membrane delineating mycoplasma-like organisms. Control conditions confirmed these labelings, demonstrating the possibility of revealing glucoside residues on tissue sections with high resolution and specificity.
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PMID:Ultrastructural localization of glucoside residues on tissue sections by applying the enzyme-gold approach. 311 63

The time-course of the ultrastructural changes and activities of 6 marker enzymes of subcellular particles (succinate dehydrogenase, beta-glucosidase, beta-N-acetylglucosaminidase, acid RNAse, glucose-6-phosphatase and 5'-nucleotidase) has been studied in the liver, spleen and thymus in rats administered T-2 toxin (mycotoxin produced by some Fusarium species). A pronounced difference in the effect of T-2 toxin on the organs has been found. In the liver, the toxin induced a destruction of rough endoplasmic reticulum membranes, reduced ribosome number and progressively decreased activities of most enzymes. In the spleen, early and significant ultrastructural disturbances of all the cell membrane components and simultaneous lysosomal activation were observed. The changes in the thymus were characterized by a fast development of cell hydratation, organelle swelling and necrosis of some thymocytes with parallel increase in repair processes, infiltration by phagocytes and a selective activation of lysosomal hydrolases in the end of experimental time (72 h.). The results obtained emphasize an importance of cellular and subcellular membrane alterations in the mechanism of T-2 toxin action.
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PMID:[Effect of T-2 toxin on organ ultrastructure and organelle-specific enzyme activity in rats]. 665 69


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