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)

The levels of six lysosomal enzymes (acid phosphatase, beta-acetylglucosaminidase, cathepsin D, beta-galactosidase, arylsulfatase A, and beta-glucuronidase) and four neutral and alkaline hydrolases (esterase, inorganic phyrophosphatase, alkaline phosphatase, and 5'-nucleotidase) were measured in osteoarthritic, rheumatoid and control synovia. All enzyme levels in diseased synovium except esterase values in osteoarthritis were significantly elevated compared with controls. The mean values of the group of acid hydrolases and the group of neutral and alkaline hydrolases in osteoarthritic synovia were 1.9- and 2.0-fold greater than those of control specimens. In rheumatoid synovia, the values were 4.2- and 4.5 fold greater than control for the same enzymes. Levels in rheumatoid synovia were significantly higher than those in osteoarthritic synovia with the exception of 5'-nucleotidase. Only a limited correlation between the extents of inflammation present in the synovia and the levels of a lysosomal marker enzyme (cathepsin D) was observed. These results demonstrate that whatever the mechanism, increased levels of acid hydrolases as well as certain neutral and alkaline hydrolases are present in osteoarthritic and rheumatoid synovia, and these enzymes are probably contained in the synovial lining cells.
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PMID:Acid, neutral, and alkaline hydrolases in arthritic synovium. 0 9

Sulphatide (cerebroside sulphate) metabolism of C3H/He mouse kidney was investigated in the course of compensatory renal hypertrophy in association with the change of [Na+,K+]-dependent ATPase, arylsulfatase A and beta-galactosidase activity. A remarkable increase in 35S incorporation into kidney sulphatide was observed 24 hours and especially 7 days after unilateral nephrectomy. In contrast, no significant alteration of 32P incorporation into major phospholipids such as phosphatidylcholine, phosphatidylethanolamine and sphingomyelin was demonstrated in the compensatory hypertrophied mouse kidney. [Na+, K+]-dependent ATPase increased to 126% of control in the remaining kidneys on 7 days after operation. Specific increase in 35S specific activity of kidney sulphatide suggests its possible link with the process of active ion transport through membrane-bound [Na+,K+]-dependent ATPase. Arylsulphatase A activity increased to 151% of control on days, while little change was observed in beta-galactosidase activity. These results suggest a sole concern of a turnover of sulphate moiety of sulphatide molecule in the elevated metabolism.
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PMID:Enhancement of sulphatide metabolism in the hypertrophied kidney of C3H/He mouse with reference to [Na+, K+]-dependent ATPase. 0 13

Human fetal tissues derived from prostaglandin-induced abortuses (9--18 wk fertilization age) have been utilized to evaluate sphingolipid composition and catabolism. Sphingolipid composition (lipid-hexose, sulfatide, and lipid-bound NANA) was assessed in fetal brain. Sphingolipid catabolism was evaluated in fetal lung and brain through the measurement of relevant acid hydrolases (arylsulfatase A, beta-galactosidase, and hexosaminidase). During the fetal period studied, the parameters of sphingolipid composition revealed variability but no consistent pattern of change. Each acid hydrolase was readily detected. Enzyme specific activities revealed no variation during the 9 fetal wk studied. Cellulose acetate electrophoresis yielded the anticipated isoenzyme patterns for each acid hydrolase with little variation during the period of study. The compositional values support current concepts of cerebral development during this period of fetal life. Together with the catabolic analyses, these studies provide normative data relative to the assessment of metabolic abnormalities during this period of fetal development.
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PMID:Sphingolipid composition and catabolism in human fetal tissues. 3 Dec 73

Arylsulfatases A, B, and C, beta-galactosidase, and acid phosphatase were assayed in neuronal, astroglial, and oligodendroglial fractions isolated from adult rabbit and beef brains. The specific activities of all acid hydrolases were lower in beef cells compared to rabbit cells. The lysosomal enzymes of the rabbit neuronal fraction showed 10--25 time higher activities than the oligodendroglial fraction and 5-fold higher activities than the astroglial fraction. In beef brain, the specific activities of these enzymes were similar in oligodendroglia and astrocytes but 4--10 times lower than in neurons. The low activity of arylsulfatase A and beta-galactosidase in oligodendroglial cells may suggest that the low turnover of cerebroside and sulfatide in myelin may be regulated in part by the enzymes that catalyze their degradation.
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PMID:Lysosomal hydrolases in neuronal, astroglial, and olidodendroglial enriched fractions of rabbit and beef brain. 11 Aug 95

The effects of age-specific peculiarities and the duration of maintaining rats on a ration with 4 per cent of protein (the initial mass of rats in the 1st group 100 g each; duration of the experiment--30 days. Initial mass rats in the 2d group--200 g each; duration of experiment--90 days on the activity of the lysosomal hydrolase was studied. The latter included beta-glucosidase, beta-galactosidase, beta-glucoronidase, beta-N-acetylglucosaminidase, arylsulfatase A and B, acid phosphatase, phospholipase A1 and A2, cholinesterase, the total proteolytic activity and that of catepsines A, B, C and D. An ambiguity of changes in the enzymes activity in the animals of the 1st and 2d groups was revealed. Placing the growing animals on a ration containing 4 per cent of protein produces an activation of the most of the lysosomal enzymes, whereas in animals of the 2d test group the nature of changes in the activity of individual enzymes proved to differ quite appreciably. Thus, the summary activity of catepsines, beta-glucoronidase and cholinesterase was below the control level, while the activity of beta-galactosidase, beta-N-acetyl-glucoseaminidase and phospholipase A1 and A2 went up. A prolonged maintenance of rats on a protein-poor ration led to upsetting the stability of the lysosomal membranes, which manifested itself in a higher solubilization of lysosomal enzymes in vitro.
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PMID:[Characteristics of the enzymatic adaptation of rat liver lysosomes to protein deficiency]. 68 19

Examination of the role of carbohydrates in specific recognition between spermatozoa and zona pellucida has focussed on understanding the interaction of sperm hydrolases or lectin-like molecules with zona pellucida ligands. To elucidate the role of specific spermatozoan hydrolases in gamete interaction, rabbit testis beta-galactosidase and arylsulfatase A were purified, characterized, and localized in spermatozoa. beta-Galactosidase and arylsulfatase A co-purified after affinity, size, or reverse-phase chromatography. N-Terminal amino acid analysis and enzymatic characterization suggested that neither enzyme is a testis-specific isozyme. Size chromatography indicated that both enzymes aggregated into macromolecular complexes at pH 4.0, while both dissociated at pH 8.0. beta-Galactosidase and arylsulfatase A co-localized on the sperm surface and in the acrosome and postacrosomal regions of spermatozoa. Throughout the zona-induced acrosome reaction, both enzymes remained associated with the detached acrosomal cap and postacrosomal region of acrosome-reacted spermatozoa. Because the acrosome is an acidic subcellular compartment, internal beta-galactosidase and arylsulfatase A are probably aggregated in acrosome-intact spermatozoa and dissociate as they are exposed to pH increases during the acrosome reaction.
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PMID:Characterization of rabbit testis beta-galactosidase and arylsulfatase A: purification and localization in spermatozoa during the acrosome reaction. 135 47

The interaction of the sulfatide activator protein with different glycosphingolipids have been studied in detail. The following findings were made. 1. The sulfatide activator protein forms water-soluble complexes with sulfatides [Fischer, G. and Jatzkewitz, H. (1977) Hoppe-Seyler's Z. Physiol. Chem. 356, 6588-6591] and various other glycospingolipids. 2. In the absence of degrading enzymes the activator protein acts in vitro as a glycosphingolipid transfer protein, transporting glycosphingolipids from donor to acceptor liposomes. Lipids having less than three hexoses, e.g. galactosylceramide, sulfatide and ganglioside GM3 were transferred at very slow rates, whereas complex lipids such as gangliosides GM2, GM1 and GD1a were transferred much faster than the former. The transfer rate increased with increasing length of the carbohydrate chain of the lipid molecules. 3. Both the acyl residue in the ceramide moiety and the nature of the carbohydrate chain are significant for recognition of the glycosphingolipids by the sulfatide activator protein. Apparently, both residues serve as an anchor and the longer they are the better they are recognized by the protein. 4. In the absence of activator protein, degradation rates of sulfatide derivatives by arylsulfatase A, and of ganglioside GM1 derivatives by beta-galactosidase, increase with decreasing length of acyl residues in their hydrophobic ceramide moiety. Addition of activator protein stimulates the degradation of only those GM1 and sulfatide derivatives that have long-chain fatty acids in their hydrophobic ceramide anchor.
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PMID:Glycosphingolipid specificity of the human sulfatide activator protein. 188 21

Saposins are small, heat-stable glycoproteins required for the hydrolysis of sphingolipids by specific lysosomal hydrolases. Saposins A, B, C, and D are derived by proteolytic processing from a single precursor protein named prosaposin. Saposin B, previously known as SAP-1 and sulfatide activator, stimulates the hydrolysis of a wide variety of substrates including cerebroside sulfate, GM1 ganglioside, and globotriaosylceramide by arylsulfatase A, acid beta-galactosidase, and alpha-galactosidase, respectively. Human saposin B deficiency, transmitted as an autosomal recessive trait, results in tissue accumulation of cerebroside sulfate and a clinical picture resembling metachromatic leukodystrophy (activator-deficient metachromatic leukodystrophy). We have examined transformed lymphoblasts from the initially reported saposin B-deficient patient and found normal amounts of saposins A, C, and D. After preparing first-strand cDNA from lymphoblast total RNA, we used the polymerase chain reaction to amplify the prosaposin cDNA. The patient's mRNA differed from the normal sequence by only one C----T transition in the 23rd codon of saposin B, resulting in a threonine to isoleucine amino acid substitution. An affected male sibling has the same mutation as the proband and their heterozygous mother carries both the normal and mutant sequences, providing additional evidence that this base change is the disease-causing mutation. This base change results in the replacement of a polar amino acid (threonine) with a nonpolar amino acid (isoleucine) and, more importantly, eliminates the glycosylation signal in this activator protein. One explanation for the deficiency of saposin B in this disease is that the mutation may increase the degradation of saposin B by exposing a potential proteolytic cleavage site (arginine) two amino acids to the amino-terminal side of the glycosylation site when the carbohydrate side chain is absent.
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PMID:Characterization of a mutation in a family with saposin B deficiency: a glycosylation site defect. 232 May 74

To study the vesicular lysosome-associated transport and the metabolism of some brain macromolecules (in particular, sialoglycoconjugates), we developed a rapid procedure to obtain a distinct lysosomal population starting from myelinating mouse brain. This procedure is based on an initial differential centrifugation step producing a 1,000-17,500-g fraction (P2), followed by isopycnic centrifugation of fraction P2 on a self-generated colloidal silica gel (Percoll) gradient. The heaviest subfraction thus obtained is very rich in acid hydrolase activities like beta-galactosidase, arylsulfatase A, and acid phosphatase. The enrichment of these enzymes is approximately 100-fold as compared with the starting homogenate, whereas the markers of other subcellular organelles, such as mitochondria, plasma membranes, or the Golgi apparatus, are virtually absent. The lysosomal preparation contains approximately 12-14% of the total acid hydrolase activities, with a protein yield of approximately 0.12%. Electron microscopy shows that the lysosomal fraction is composed of an approximately 90% pure population of lysosomes. Therefore, the procedure described here is suitable for obtaining a highly purified lysosome preparation from myelinating mouse brain.
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PMID:Rapid preparation of a distinct lysosomal population from myelinating mouse brain using Percoll gradients. 254 49

In order to study the biochemical changes associated with the cell body response to axonal crush injury, two systems, hypoglossal nucleus and spinal cord ventral horn, were used. The time intervals chosen were 7, 14, and 28 days after unilateral crushing of the right hypoglossal nerve and cervicothoracic nerves of the rabbit. Non-crushed, contralateral nerves were used as controls. Three groups of enzyme activities were tested: (a) phospholipase A2, acyl CoA:2-acyl-sn-glycero-3-phosphocholine acyltransferase, and choline phosphotransferase, as indicators of phospholipid degradation and biosynthesis; (b) seven hydrolases, namely, beta-D-glucuronidase, beta-N-acetyl-D-hexosaminidase, arylsulfatase A, galactosylceramidase, GM1-ganglioside beta-galactosidase, and acid RNase, as indicators of lysosomal activity; and (c) free and inhibitor-bound alkaline RNase, as an index of RNA metabolism. Changes could be grouped into three distinct patterns. Compared to contralateral control, choline phosphotransferase showed a slight increase, whereas phospholipase A2 and most lysosomal hydrolases showed a significant increase of activity, especially evident in the ventral spinal cord neurons 14-28 days after crushing. These changes correlate with known increases of membrane and organelle numbers, including lysosomes, in motor and sensory neurons during peripheral regeneration. In contrast, free and acid alkaline RNase activity significantly decreased in the injured sides compared to the controls. This change can probably be correlated with a stabilization of RNAs needed for increased protein synthesis. No changes in total alkaline RNase and acyltransferase activities in either regeneration model were observed.
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PMID:Changes of phospholipid-metabolizing and lysosomal enzymes in hypoglossal nucleus and ventral horn motoneurons during regeneration of craniospinal nerves. 283 34


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