Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glycosidic enzymes were used as probes to analyze the mechanism of NK cell-mediated cytotoxicity. Pretreatment of nylon wool-enriched CBA/J spleen cells, a murine NK clone, or human peripheral blood lymphocytes (PBL) with alpha-mannosidase, an exoglycosidase, led to a marked dose-dependent inhibition of NK lytic activity against YAC-1.2 or K562 tumor cells. Maximal inhibition occurred after a 60-min pretreatment of murine effectors at 37 degrees C, and the kinetics of NK inhibition by alpha-mannosidase was similar to the reported kinetics for enzymatic activity. Released hexose was detected chemically in the supernatant of mouse spleen cells treated with NK inhibitory dose of alpha-mannosidase, and inactivation of enzymatic function with EDTA reversed the NK inhibitory effect. These results suggest that alpha-mannosidase inhibited NK function by virtue of its enzymatic action. Culture of human PBL for 20-hr after treatment with this enzyme led to a greater than 70% recovery in NK lytic function. Recovery was blocked by incorporating tunicamycin, a glycosylation inhibitor of asparagine-linked glycoproteins, into the culture medium. These results suggest that the alpha-mannosidase-sensitive site may be de novo synthesized glycoprotein. Neuraminidase, beta-galactosidase, endo-beta-N-acetylglucosaminidase-D and H, and peptide-N-glycosidase treatments did not inhibit human NK cell lysis of K562 cells. Pretreatment of nylon wool-enriched CBA/J spleen cells or Percoll-enriched human LGL with alpha-mannosidase did not influence their capacity to bind YAC 1.2 target cells or K562 target cells, respectively, Ca++ pulse experiments revealed that the alpha-mannosidase-sensitive site on the NK cells was involved after target-effector binding but before the Ca++ influx. Pretreatment of effector cells with this enzyme which normally occurs after effector-target cell interaction. These results suggest that the phospholipid methylation reaction is coupled to the alpha-mannosidase-sensitive site on the NK cells. By analogy to other physiologic systems, such as histamine release in mast cells, the triggering of phospholipid methylation in the NK cells may serve as a mechanism for signal transduction across the plasma membrane.
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PMID:An exoglycosidase-sensitive triggering site on NK cells which is coupled to transmethylation of membrane phospholipids. 392 14

Eight lectins specific for different 125I-labelled carbohydrates were employed to study the effect of the neuraminidase, alpha-galactosidase, and beta-galactosidase enzymes on the glycoproteins and terminal carbohydrates of platelet membranes. Neuraminidase was seen to cause a decrease in molecular weight, as measured by polyacrylamide gradient electrophoresis, in glycoproteins IIb and III; this was apparently due to an almost 50% decrease in N-acetyl-D-glucosamine terminals. At the same time, new D-mannose and D-galactose terminals became accessible to the lectins. The alpha- and beta-galactosidases did not seem to affect the molecular weight of the glycoproteins appreciably, though the N-acetyl-D-glucosamine terminals decreased and D-galactose debris increased; differences were observed in the effects of both enzymes. The results confirm that N-acetyl-D-glucosamine, D-mannose and D-galactose are the most abundant membrane carbohydrates and suggest that the first is found as a terminal whereas the others must also be located in the internal zones of the glycoproteins.
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PMID:[Effect of galactosidase enzymes on the glycoproteins of the platelet membrane determined using lectins]. 407 Jul 55

A number of "surface" enzymes of Escherichia coli (i.e., among those selectively released by osmotic shock) all displayed higher specific activities in extracts of minicells than in extracts of typical rod forms; these enzymes included alkaline phosphatase, cyclic phosphodiesterase, acid hexose monophosphatase, 5'-nucleotidase, and ribonuclease I. In addition, alkaline phosphatase, cyclic phosphodiesterase, and acid hexose monophosphatase were cytochemically localized to regions of minicell periplasm that resembled reactive polar enlargements of the periplasm in rod forms. In contrast, a number of "internal" cytoplasmic enzymes (inorganic pyrophosphatase, beta-galactosidase, glutamine synthetase, polynucleotide phosphorylase, and ribonuclease II) showed elevated or similar specific activities in extracts of rod forms versus extracts of minicells. A specific heat-labile inhibitor for 5'-nucleotidase, known to occur in the cytoplasm, also showed no enrichment in minicells. These findings indicate that the "surface" enzymes are segregated in vivo into the terminal minicell buds, possibly because these enzymes are concentrated in the polar enlargements of the periplasm in typical rod forms.
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PMID:Biochemical and cytochemical evidence for the polar concentration of periplasmic enzymes in a "minicell" strain of Escherichia coli. 431 25

Cerebroside sulfatase (CSase) activator was isolated from human liver by acetone precipitation, anion-exchange chromatography, gel filtration and polyacrylamide gel electrophoresis. The CSase activator was a heat-stable protein with an isoelectric point of 4.54. Molecular weight (Mr) of the activator was estimated as 22,000 with the gel permeation and about 8,000 by gel electrophoresis in the presence of sodium dodecyl sulfate, suggesting that the native activator is a trimer of a subunit with Mr 8,000. The CSase activator formed a complex with an equimolar amount of cerebroside sulfate (CS), when examined by gel permeation experiments. The activator also bound to galactosylceramide and GM2 ganglioside but scarcely to GM1 ganglioside, and activated to some extent beta-N-acetyl-hexosaminidase A and beta-galactosidase, although the CSase activator could be clearly distinguished from the GM1 beta-galactosidase activator so far known. Though the affinity chromatography using glycolipid ligands, the CSase activator did not recognize sulfate group of CS, but appeared to have a relatively broad specificity for lipid-linked hexose.
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PMID:[Purification and characterization of cerebroside sulfatase activator]. 614 Nov 30

To better define the role of carbohydrate in the structure and ristocetin cofactor activity of von Willebrand factor, we have removed up to 83% of total hexose by sequential treatment of the molecule with endo-beta-N-acetyl-glucosaminidase F (endo F), neuraminidase, and beta-galactosidase. Endo F alone removed 69% of total hexose and D-galactose, and 71% of sialic acid. However, there was no discernible loss of large multimers and the ristocetin cofactor activity was decreased by only 11%. The reduced von Willebrand factor subunit migrated more rapidly in polyacrylamide gels containing SDS, consistent with a 10% decrease of molecular mass. All multimers of unreduced carbohydrate-modified von Willebrand factor migrated more rapidly in SDS-agarose, but the triplet pattern of individual multimers was unchanged. This alteration in multimer migration rate did not resemble alterations found so far in von Willebrand disease variants. Further treatment of von Willebrand factor with neuraminidase and beta-galactosidase reduced the D-galactose to 15% and ristocetin cofactor activity to 57%. A similar decrease in ristocetin cofactor activity was seen if von Willebrand factor was treated only with neuraminidase and beta-galactosidase. In contrast, treating von Willebrand factor with neuraminidase and beta-galactosidase in the presence of protease inhibitors (20 mM benzamidine, 20 U/ml aprotonin, 15 micrograms/ml leupeptin) resulted in a comparable removal of carbohydrate with no change in ristocetin cofactor activity. Moreover, the multimeric structure remained intact in spite of 80% removal of D-galactose. This suggested that carbohydrate was protecting von Willebrand factor against traces of one or more protease contaminants. Evidence in support of this hypothesis was obtained by exposing von Willebrand factor to plasmin after pretreatment with neuraminidase alone or with neuraminidase and beta-galactosidase. A loss of large multimers was observed from von Willebrand factor that had been pretreated with neuraminidase, but this was even greater if pretreatment was also with beta-galactosidase. In contrast, the multimeric structure of von Willebrand factor with intact carbohydrate was not affected by plasmin under similar conditions. These studies suggest that carbohydrate protects von Willebrand factor from disaggregation occurring secondarily to proteolytic attack but does not play a direct role in maintaining its multimeric structure or ristocetin cofactor activity.
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PMID:Carbohydrate moiety of von Willebrand factor is not necessary for maintaining multimeric structure and ristocetin cofactor activity but protects from proteolytic degradation. 623 76

Expression of gnd of Escherichia coli, which encodes the hexose monophosphate shunt enzyme, 6-phosphogluconate dehydrogenase (6PGD; EC 1.1.1.44), is subject to growth rate-dependent regulation: the level of the enzyme is directly proportional to growth rate under a variety of growth conditions. Previous results obtained with strains carrying transcriptional fusions of gnd to the structural genes of the lactose operon suggested that the growth rate-dependent regulation of gnd expression is at the post-transcriptional level. To characterize the regulation further, we prepared with phage MudII a set of eight independent gnd-lac gene (protein) fusions. We showed through genetic analysis and DNA sequencing that each fusion joint was located within the 6PGD-coding sequence between the first and second base pair of a codon, the reading frame required for production of a hybrid 6PGD-beta-galactosidase. Strains harboring the gnd-lac fusion plasmids produced proteins whose mobility in a NaDodSO4/polyacrylamide gel agreed with the molecular weights predicted from the DNA sequence for the respective hybrid proteins. The level of beta-galactosidase was high and relatively growth rate-independent in the fusion whose fusion joint was at codon 48. The level of beta-galactosidase in the other seven fusion strains whose fusion joints were located further downstream in the 6PGD-coding sequence showed the same dependence on growth rate as 6PGD in a normal strain. beta-Galactosidase levels were not affected by the presence of a gnd+ gene in trans to any of the fusions. The results suggest that all sites necessary for growth rate-dependent regulation of 6PGD level lie in gnd upstream from codon 118 and that an essential site of negative control lies within the coding sequence, between codons 48 and 118.
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PMID:Essential site for growth rate-dependent regulation within the Escherichia coli gnd structural gene. 644 Jan 41

It has been shown that low concentrations of E. coli lipopolysaccharides (LPS) greatly and selectively stimulate phagocytosis and related functions in mouse bone marrow-derived macrophages. Culture in the presence of 50 ng/ml LPS induced on average a 10-fold enhancement of phagocytosis of IgG-coated sheep erythrocytes. Activation was in two stages--a small increase observed during the first 8 to 12 hr, and the major increase noted between 16 and 24 hr. Phagocytic activity remained at the maximal level for 24 hr and then declined progressively. Stimulation by LPS was dose-dependent; significant effects could be observed at 0.8 ng/ml and the maximum was reached at 10 ng/ml. LPS-treated cells also showed a markedly increased tendency to form colonies. All these effects could be prevented by the addition of 100 ng/ml polymyxin B together with LPS, indicating that the active principle is lipid A. The LPS-dependent increase in phagocytic activity is probably mediated by increased Fc receptor capacity because both parameters were influenced in parallel by the stimulus. Phagocytosis-related events, such as enhanced hexose monophosphate shunt activity, H2O2 formation, and nitroblue tetrazolium reduction were also stimulated by LPS. By contrast, pinocytosis was unaffected. Measurements of cell-associated enzyme activities showed that lactate dehydrogenase, acid phosphatase, and cathepsin D were significantly increased. Beta-glucuronidase, beta-galactosidase, alkaline phosphodiesterase, and aminopeptidase were unchanged and NAD nucleosidase was markedly decreased after LPS treatment. 5'-Nucleotidase and glucosamine uptake were undetectable both in control and LPS-stimulated cells. LPS treatment induced a significant increase in cell-associated protein, but did not result in cell proliferation or increased cell loss as shown by the DNA content that remained constant. LPS-induced changes were dependent on de novo protein synthesis; cycloheximide prevented enhancement of phagocytosis, Fc receptor capacity, and colony formation.
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PMID:Stimulation of phagocytosis in bone marrow-derived mouse macrophages by bacterial lipopolysaccharide: correlation with biochemical and functional parameters. 673 51

The API STAPH-IDENT system was compared with conventional methods for the identification of 14 Staphylococcus species. Conventional methods included the Kloos and Schleifer simplified scheme and DNA-DNA hybridization. The API STAPH-IDENT strip utilizes a battery of 10 miniaturized biochemical tests, including alkaline phosphatase, urease, beta-glucosidase, beta-glucuronidase, and beta-galactosidase activity, aerobic acid formation from D-(+)-mannose, D-mannitol, D-(+)-trehalose, and salicin, and utilization of arginine. Reactions of cultures were determined after 5 h of incubation at 35 degrees C. Results indicated a high degree of congruence (greater than 90%) between the expedient API system and conventional methods for most species. The addition of a test for novobiocin susceptibility to the API system increased the accuracy of identification of S. saprophyticus, S. cohnii, and S. hominis, significantly. Several strains of S. hominis, S. haemolyticus, and S. warneri which were difficult to separate with the Kloos and Schleifer simplified scheme were accurately resolved by the API system.
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PMID:Identification of Staphylococcus species with the API STAPH-IDENT system. 675 90

Simultaneous or sequential treatment of rat adipocytes with neuraminidase plus beta-galactosidase decreased insulin binding by 43%. No modification was observed with either enzyme individually. alpha-Mannosidase enhanced insulin binding (38%), whereas beta-N-acetylglucosaminidase and alpha-L-fucosidase were ineffective. Lectins that interact with galactose (Ricinus communis I, RCAI), mannose, Lens culinaris agglutinin (LCA), Concanavalin A (Con A) or N-acetylglucosamine (wheat-germ agglutinin, WGA) decreased insulin binding by 43, 57, 59 and 85% respectively. Lectin inhibition was dose-dependent, saturable and prevented by specific monosaccharides. RCAI, LCA, Con A and WGA decreased the insulin dissociation process by 45, 90, 78 and 84% respectively. Lectins specific for sialic acid, terminal galactose, N-acetylgalactosamine or fucose (Limulus polyphemus, peanut, soybean and Ulex I agglutinins) did not modify either insulin binding or dissociation. These results indicate involvement of penultimate D-galactose, internal N-acetyl-D-glucosamine and D-mannose residues in both processes. They suggest that, in rat adipocytes, a glycosidic moiety participates in the insulin-receptor interaction through N-linked oligosaccharides of the 'complex type'.
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PMID:Further characterization of the insulin receptor glycosidic moiety in rat adipocytes. 679 21

The uhp-coded hexose phosphate transport system of Escherichia coli is normally induced by the presence of extracellular glucose-6-phosphate (G6P), whereas internally generated G6P does not provide a regulatory signal. Strains carrying uhp-lac operon fusions in which lac operon expression is under the control of the uhpT promoter were isolated. The direction of transcription of the uhp T gene was found to be counterclockwise on the E. coli chromosome map. The effects of added sugar phosphates on induction of beta-galactosidase and G6P uptake activities were compared in two fusion-carrying strains differing only in the presence of functional Uhp+ activity. Induction of uhp expression by G6P was equally effective in the two strains; accumulation of G6P diminished its ability to serve as an inducer. Mannose-6-phosphate was an effective competitive inhibitor of G6P uptake, but did not inhibit induction by G6P of uhp expression. No sugar phosphates were found that inhibited induction by G6P. Inorganic phosphate competitively inhibited induction by G6P whether G6P transport activity was present or not. Thus, the transport activity is not involved in the regulation of its synthesis, and these results strongly support the view that the uhp regulatory system senses only the external environment.
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PMID:Exogenous induction of the Escherichia coli hexose phosphate transport system defined by uhp-lac operon fusions. 679 54


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