EFFECT OF THYROID DEFICIENCY ON THE LEVELS OF SEVERAL ENZYMES IN RAT BRAIN

—Activities of acid phosphatase, alkaline phosphatase and β-glucuronidase have been estimated in the brain tissues, using various subcellular particles, in growing thyroidectomized rats and also using cytoplasmic extracts free from debris and nuclear fraction in young hypothyroid animals. Hepatic glucose-6-phosphate dehydrogenase activity was markedly reduced after thyroidectomy but the enzyme was brought back to normal levels by thyroxine treatment. There was no change, however, in the activity of neural glucose-6-phosphate dehydrogenase after thyroidectomy. In the thyroidectomized animals an increase only in the free acid phosphatase activity in the neural synaptosomes was found and this increase in activity was not counteracted by administration of thyroxine. In the hypothyroid young animal β-glucuronidase, acid phosphatase and alkaline phosphatase activities were found to be affected during development.     

Activity and distribution of lysosomal enzymes during collagenous matrix-induced cartilage,bone, and bone marrow development

The appearance of the lysosomal enzymes acid phosphatase, arylsulfatase, and β-glucuronidase was studied during endochondral bone and bone marrow formation induced by implantation of demineralized bone matrix. The activities of acid phosphatase and β-glucuronidase gradually increased from the stage of mesenchymal cell proliferation on Day 3 onward to reach a peak on Day 13, during maximal bone remodeling. However, arysulfatase activity exhibited a sharp increase on Day 9, associated with the onset of cartilage hypertrophy and chondrolysis. The peak of arylsulfatase activity was also attained on Day 13. The activities of all three enzymes declined on Day 15 but acid phosphatase again exhibited an increase during hematopoietic bone marrow differentiation on Days 19–21. Histochemical and ultrastructural studies revealed intense lysosomal enzyme activity in macrophage-like cells on Day 7 and thereafter. During chondrolysis and bone remodeling, these cells were present in a perivascular location. Osteoclasts also exhibited strong reactivity for the lysosomal enzymes. Due to its characteristic temporal appearance during development of endochondral bone, arysulfatase may be used as a marker enzyme for chondrolysis and bone resorption.     

QUANTITATIVE LYSOSOMAL ENZYME ACTIVITY CHANGES IN THE NEURAL LOBE OF THE RAT FOLLOWING WATER DEPRIVATION AND LACTATION

—The activities of five lysosomal enzymes, acid phosphatase, β-glucosidase, β-glucuronidase, β-galactosidase and N-arylamidase (classified according to Marks (1970)) were measured by means of sensitive microchemical techniques in frozen-dried rat neural lobe tissue after experimental and physiological stimulation of hormone release from the hypothalamo–neurohypophysial system i.e. water deprivation (3 and 6 days), delivery and lactation (10 days). During all conditions of stimulation increases of 29 to 106 per cent were measured for lysosomal enzyme activity, expressed as mmol/ng DNA/h. With histochemical staining methods the acid phosphatase activity appears to be mainly localized in the pituicytes, but it was impossible to visualize the microchemically measured acid phosphatase activity increase within the two main compartments of the neurohypophysis, i.e. axonal endings and the neurohypophysial glial cells, the pituicytes.     

BETA GLUCURONIDASE-RICH CYTOPLASMIC PARTICLES IN ANDROGEN-STIMULATED MOUSE KIDNEY : A Cytobiochemical Study

Androgens produced by stimulating mouse testis with gonadotropic hormones cause a rise in renal β-glucuronidase but not an increase in acid or alkaline phosphatase. All subcellular components increase in β-glucuronidase activity, with a relatively greater increment in particulate enzyme as compared with that free in the cytoplasm (non-sedimentable). A small percentage of recovered β-glucuronidase, acid phosphatase, and alkaline phosphatase is found in material which rises to the surface during centrifugation in sucrose media (fraction I). The specific activity of β-glucuronidase and acid phosphatase in this fraction is normally quite high with respect to the homogenate, while that of alkaline phosphatase is not. On the other hand, the fraction I material from androgen-stimulated mice exhibits a further increase in specific activity with respect to β-glucuronidase and not acid phosphatase. It thus appears that there is an independence in the behavior of individual enzymes in response to physiologic stimuli in spite of obvious morphologic proximity.     

Characteristics of lysosomes in the rat placental cells

Six acid hydrolases, cytochrome oxidase, and alkaline phosphatase were demonstrated in 0.25 m sucrose homogenates of rat chorioallantoic placenta. The acid hydrolases were: acid phosphatase, β-glucuronidase, N-acetyl-β-glucosaminidase, β-galactosidase, and acid deoxyribonuclease, showing optimum activity near pH 4.5; cathepsin, with optimum activity near pH 3.6. The free acid hydrolases present in cytoplasmic extracts expressed 20–40% of their total activity. “Total” activity was defined as the enzyme activity observed in the presence of Triton X-100, while “free” activity denoted enzyme activity measured under similar assay conditions except in the presence of sucrose and absence of Triton X-100. The decreased activity or latency in the assays for the free activity of acid phosphatase, acid deoxyribonuclease, and cathepsin persisted after incubation at pH 5 and 37 ° up to an hour. In contrast, this latency did not persist after incubation of the β-glycosidases. Additionally, the free activity of all the designated enzymes of the cytoplasmic extract was in excess of the nonsedimentable activity observed.     

The encapsulation process in Biomphalaria glabrata experimentally infected with the metastrongylid Angiostrongylus cantonensis: enzyme histochemistry.

Enzyme histochemistry has revealed that encapsulation reactions surrounding larvae of the nematode Angiostrongylus cantonensis 4 wk after infection of the gastropod Biomphalaria glabrata are the sites of highly localized acid phosphatase and nonspecific esterase activities. Lesser amounts of alkaline phosphatase and β-glucuronidase activities also occur within such capsules, but aminopeptidase activity cannot be demonstrated. In addition, it has been ascertained that acid phosphatase activity gradually increases as the encapsulation reaction progresses during the first to the fourth week postinfection.     

CHARACTERIZATION AND LOCALIZATION OF ACID HYDROLASE ACTIVITY IN THE SYNAPTOSOMAL FRACTION FROM RAT CEREBRAL CORTEX

Synaptosomes were prepared from the cerebral cortex of adult rats by a rapid technique of centrifugation in a Ficoll-sucrose discontinuous gradient. The synaptosomal fraction contained 40 per cent of the total gradient activity of acid α-naphthyl phosphatase (EC 3.1.3.2). Quantitative electron microscopy of this fraction revealed rare, typical, extrasynaptosomal dense body lysosomes. pH-activity profiles of free and Triton X-100 (total) activities were prepared for α-naphthyl phosphatase, β-glucuronidase (EC 3.2.1.31), β-galactosidase (EC 3.2.1.23), arylsulfatase (EC 3.1.6.1) and N-acetylglucosaminidase (EC 3.2.1.30). The ratios of total to free activity varied in the order: arylsulfatase > β-galactosidase > β-glucuronidase > N-acetylglucosaminidase > acid phosphohydrolase. Incubation of synaptosomal fractions at pH 5 and 37°C produced significant activation of β-galactosidase and N-acetylglucosaminidase but no activation of cryptic lactate dehydrogenase (EC 1.1.1.27). Hyposmotic suspension and subfractionation of the synaptosomal fraction produced considerable solubilization of lactate dehydrogenase, arylsulfatase and β-galactosidase but only partial liberation of α-naphthyl phosphatase, the remainder being associated with synaptosomal membrane fragments. Incomplete equilibrium sedimentation of synaptosomes in a continuous sucrose gradient (0·55-1·5 M) provided a broad lactate dehydrogenase and Na + K ATPase (EC 3.6.1.4) peak (peak I) at low sucrose densities. β-Glucuronidase, β-glucosidase and α-naphthyl phosphatase were significantly present in peak I. Conversely, N-acetylglucosaminidase, arylsulphatase and β-galactosidase were predominantly located in denser particles sedimenting through 1·2 M sucrose (peak II). Electron microscopy confirmed the heterogeneity of this second peak and the presence of numerous extrasynapto-somal dense body lysosomes.     

Localization of arylsulphatase in neurons

Abstract— Arylsulphatase activity, with 4-methylumbelliferone sulphate as substrate, was measured by a quantitative histochemical method in individual anterior horn nerve cell bodies and adjacent neuropil of man and monkey; and in molecular and granular layers and subjacent white matter of cerebellum of monkey, rat and guinea pig. The activity was much higher in neuronal perikarya than in neuropil, and higher in the granular layer of cerebellum than in the molecular or white matter, thus resembling the distinctive distribution, reported in monkey, of three other lysosomal enzymes, β-galactosidase, β-glucuronidase and α-naphthyl acid phosphatase. One exception was encountered: the white matter of guinea pig cerebellum had more arysulphatase activity than the granular layer. For comparison, other lysosomal enzymes also were measured in rat and guinea pig cerebellum; in these species, α-naphthyl acid phosphatase distribution was found to differ from that of β-galactosidase and arysulphatase, and from the pattern common to four lysosomal enzymes in the monkey.     

Studies on the NADPH oxidizing activity in polymorphonuclear leucocytes: The mode of association with the granule membrane the relationship to myeloperoxidase and the interference of hemoglobin with NADPH oxidase determination

Phospholipase C-treated polymorphonuclear leucocytes were used to study the properties of NADPH oxidase activity of stimulated polymorphonuclear leucocytes.A comparison of the effects of phospholipase C treatment of whole leucocytes on the NADPH oxidase activity with other granule enzymes showed that the activities of β-glucuronidase and acid phosphatase were un-affected, whereas the NADPH oxidase activity was stimulated 4-fold and myeloperoxidase was inhibited about 30%.The distribution of NADPH oxidase activity among subcellular fractions of polymorphonuclear leucocyte homogenates was unaffected by phospholipase C whereas the other enzymes were released into the medium in soluble form; β-glucuronidase > acid phosphatase and myeloperoxidase.A number of solubilizing agents and procedures were tested for their ability to release NADPH oxidase activity from granules of phospholipase C-stimulated polymorphonuclear leucocytes. All procedures used caused appreciable release of granule protein but no release of NADPH oxidase activity. Most of the procedures used strongly inhibited the oxidase activity. These results indicate that the enzyme is tightly bound to granule structures and that the integrity of these structures is required for activity.Some of the solubilizing agents used (KCI, guanidium chloride) were very effective in solubilizing myeloperoxidase.The differential response of myeloperoxidase and NADPH oxidase to treatment with phospholipase C or solubilizing procedures suggests that the two activities are not due to the same enzyme. However, definite conclusion cannot be drawn because of the complex nature of myeloperoxidase.It was found necessary to lyse any erythrocytes present as contaminants of polymorphonuclear leucocytes preparations, since hemoglobin was converted to methemoglobin during the NADPH oxidase assay and methemoglobin exhibits appreciable NADPH oxidase activity.     

Acid phosphatase localization in individual neurons by a quantitative histochemical method

—By an adaptation of the fluorometric method of Campbell and Moss (1961), the activity of α-naphthyl acid phosphatase was measured in individual neurons of monkey and human spinal cord and found to be many times higher in nerve cell bodies than in the surrounding neuropil. It was also measured in cerebellar cortex and found most concentrated in the granular (neuronal) layer. As this distribution is distinctive and paralleled by two other acid hydrolases, β-galactosidase and β-glucuronidase, it is considered to offer additional support for the lysosomal concept in nervous tissue and to indicate that nerve cell perikarya are much richer in lysosomes than are axons, dendrites or glial cells.     

Acid and Neutral Hydrolases in Trypanosoma cruzi. Characterization and Assay*

Twelve acid hydrolases, 4 near-neutral hydrolases and alkaline phosphatase were demonstrated in 0.34 M sucrose homogenates of Trypanosoma cruzi strain Y: p-nitrophenylphosphatase and α-naphthylphosphatase, with optimum pH at ? 6.0; α-galactosidase, β-galactosidase, β-glucosidase, N-acetyl-β-glucosaminidase, cathepsin A and peptidase I and III, with optimum pH between 5.0 and 6.0: and arylsulfatase cathepsin D, α-arabinase and α-mannosidase with optimum pH at ? 4.0 α-Glucosidase, gluccse-6-phosphatase and peptidase II had optimum pH at ? 7.0. β-Glycerophcsphatase had a broad pH-activity curve from 4.0 to 7.4, with maximum activity at pH 7.0. The main kinetic characteristics of these enzymes and their quantitative assay methods were studied. No activity was detected for α-fucosidase, β-xylosidase, β-glucuronidase, elaidate esterase. acid lipase, and alkaline phospho-diesterase.     

Effect of poplar genotypes on mycorrhizal infection and secreted enzyme activities in mycorrhizal and non-mycorrhizal roots

The impact of ectomycorrhiza formation on the secretion of exoenzymes by the host plant and the symbiont is unknown. Thirty-eight F(1) individuals from an interspecific Populus deltoides (Bartr.)×Populus trichocarpa (Torr. & A. Gray) controlled cross were inoculated with the ectomycorrhizal fungus Laccaria bicolor. The colonization of poplar roots by L. bicolor dramatically modified their ability to secrete enzymes involved in organic matter breakdown or organic phosphorus mobilization, such as N-acetylglucosaminidase, β-glucuronidase, cellobiohydrolase, β-glucosidase, β-xylosidase, laccase, and acid phosphatase. The expression of genes coding for laccase, N-acetylglucosaminidase, and acid phosphatase was studied in mycorrhizal and non-mycorrhizal root tips. Depending on the genes, their expression was regulated upon symbiosis development. Moreover, it appears that poplar laccases or phosphatases contribute poorly to ectomycorrhiza metabolic activity. Enzymes secreted by poplar roots were added to or substituted by enzymes secreted by L. bicolor. The enzymatic activities expressed in mycorrhizal roots differed significantly between the two parents, while it did not differ in non-mycorrhizal roots. Significant differences were found between poplar genotypes for all enzymatic activities measured on ectomycorrhizas except for laccases activity. In contrast, no significant differences were found between poplar genotypes for enzymatic activities of non-mycorrhizal root tips except for acid phosphatase activity. The level of enzymes secreted by the ectomycorrhizal root tips is under the genetic control of the host. Moreover, poplar heterosis was expressed through the enzymatic activities of the fungal partner.     

Acid phosphatase of HeLa cells: properties and regulation of lysosomal activity by serum.

Although the subcellular distribution profile of acid phosphatase in HeLa cells is typical of a lysosomal enzyme, different lysosomal (70–80%) and supernatant forms (20–30%) have been demonstrated by their differences in pH activity curves, substrate specificities, thermal stability, sensitivity to inhibitors, and kinetics. Enzymes of the lysosomal fraction displayed anomalous kinetics in the hydrolysis of p-nitrophenyl phosphate. The major lysosomal acid phosphatase activity appears to be associated with the membrane.The total acid phosphatase activity in the cell is controlled by the concentration of serum in the medium. The specific activity in the homogenates of cells grown in high serum concentration (30%) is about twice that of cells grown in low serum concentration (1%). This doubling of specific activity holds for the lysosomal enzyme (or enzymes), but little change occurs in the supernatant form (or forms). Two other lysosomal enzymes, β-glucuronidase and N-acetyl-β-d-hexosaminidase, do not increase in specific activity. The serum-dependent formation of acid phosphatase is sensitive to cycloheximide, actinomycin D, and cordycepin. Cycloheximide blocks the increase in enzymatic activity immediately, whereas cordycepin and actinomycin D have no effect for at least 8 h. These findings suggest that de novo protein synthesis is involved in the induction of lysosomal acid phosphatase by serum and that the mRNA for this enzyme is relatively stable.     

Demonstration of Various Acid Hydrolases and Preliminary Characterization of Acid Phosphatase in Naegleria fowleri1

ABSTRACT. Extracts of the pathogenic ameba Naegleria fowleri, prepared by freeze-thawing and sonication, were analyzed for their content of various hydrolytic enzymes that have acid pH optima. The organism is rich in acid phosphatase activity as well as a variety of glycosidases which include β-glucosidase, β-galactosidase, β-fucosidase, α-mannosidase, hexosaminidase, arylsulfatase A, and β-glucuronidase. The crude extract contained only negligible levels of sphingomyelinase, neuraminidase, or arylsulfatase B. All of the hydrolases exhibited higher activity at pH 5.5 than at 7.0, indicating that they are truly “acid” hydrolases. In general, after centrifugation (100,000 g, 1 h), except for arylsulfatase B, more than half of the activity of each of the various hydrolases was recovered in the supernatant fraction. The acid phosphatase in the high-speed supernatant was purified 45-fold (32% yield) by chromatography on QAE-Sephadex and Sephadex G-200 and shown to have the following properties: 1) pH optima, 5.5; 2) K_m (4-methylumbelliferyl phosphate), 0.60 mM; 3) molecular weight (estimated by gel filtration chromatography), 92,000; 4) inhibited by heteropolymolybdate complexes but not by L(+) sodium tartrate (0.5 mM) or sodium fluoride (0.5 mM). In addition, unlike the tartrate-resistant acid phosphatase of Leishmania donovani, the major acid phosphatase of N. fowleri is less than 5% as effective in inhibiting superoxide anion production by f-Met-Leu-Phe-stimulated human neutrophils. The finding of high levels of a number of acid hydrolases in Naegleria fowleri raises several questions that merit further study: Do the hydrolases perform a housekeeping function in this single cell eukaryote or do they play some role in the pathogenic process that ensues when the organism infects a suitable host?     

Structural and biochemical characterization of glycoside hydrolase family 79 β-glucuronidase from Acidobacterium capsulatum

We present the first structure of a glycoside hydrolase family 79 β-glucuronidase from Acidobacterium capsulatum, both as a product complex with β-D-glucuronic acid (GlcA) and as its trapped covalent 2-fluoroglucuronyl intermediate. This enzyme consists of a catalytic (β/α)(8)-barrel domain and a β-domain with irregular Greek key motifs that is of unknown function. The enzyme showed β-glucuronidase activity and trace levels of β-glucosidase and β-xylosidase activities. In conjunction with mutagenesis studies, these structures identify the catalytic residues as Glu(173) (acid base) and Glu(287) (nucleophile), consistent with the retaining mechanism demonstrated by (1)H NMR analysis. Glu(45), Tyr(243), Tyr(292)-Gly(294), and Tyr(334) form the catalytic pocket and provide substrate discrimination. Consistent with this, the Y292A mutation, which affects the interaction between the main chains of Gln(293) and Gly(294) and the GlcA carboxyl group, resulted in significant loss of β-glucuronidase activity while retaining the side activities at wild-type levels. Likewise, although the β-glucuronidase activity of the Y334F mutant is ~200-fold lower (k(cat)/K(m)) than that of the wild-type enzyme, the β-glucosidase activity is actually 3 times higher and the β-xylosidase activity is only 2.5-fold lower than the equivalent parameters for wild type, consistent with a role for Tyr(334) in recognition of the C6 position of GlcA. The involvement of Glu(45) in discriminating against binding of the O-methyl group at the C4 position of GlcA is revealed in the fact that the E45D mutant hydrolyzes PNP-β-GlcA approximately 300-fold slower (k(cat)/K(m)) than does the wild-type enzyme, whereas 4-O-methyl-GlcA-containing oligosaccharides are hydrolyzed only 7-fold slower.     

Relationship between bone resorption and lysosomal enzyme release as demonstrated by the effect of 1α-hydroxy-vitamin D-3 in an organ culture system

The effect of 1α-hydroxy-vitamin D-3 on the release of calcium (⁴⁰Ca, ⁴⁵Ca), inorganic phosphate and lysosomal enzymes, on glucose consumption and lactate production was studied in a bone organ culture system using half calvaria from 6–7-day-old mice. 1α-Hydroxy-vitamin D-3 stimulated the mobilization of minerals and increased the release of β-glucuronidase, β-N-acetylglucosaminidase and acid phosphatase, while no effect on the release of lactate dehydrogenase was seen. 1α-Hydroxy-vitamin D-3 also caused a significant increase in the total activities of acid phosphatase in the bones after culture, indicating increased enzyme synthesis. The stimulatory effect of the release of P_i and β-glucuronidase was also obtained after a temporary exposure to 1α-hydroxy-vitamin D-3. The stimulation by 1α-hydroxy-vitamin D-3 on the release of Ca²⁺, P_i and β-glucuronidase was suppressed by a protein synthesis inhibitor cycloheximide. No effect by 1α-hydroxy-vitamin D-3 on glucose consumption and lactate production was registered, suggesting that increased mineral mobilization does not require increased lactate production. It is concluded that although the data in the present paper do not prove a cause-and-effect relationship between lysosomal enzyme release and bone resorption, they give further support to the concept that the processes are intimately associated.     

Release of cytoplasmic enzymes into culture fluid

The release of enzymatic activities from cells grown in protein-and lipid-free synthetic media into culture fluids was investigated. Cell strains employed were the derivatives from mouse fibroblasts, rat liver parenchymal cells, rat ascites hepatoma cells and HeLa cells. Activities of acid DNase, acid RNase and alkaline phosphatase (ALP)-I were detected in culture fluids as early as one day after renewal of medium, whereas those of β-glucuronidase and acid phosphatase were not found. This release of enzymes was unlikely to be caused by cell disruption during cultivation. The release of Dnase was inhibited by the addition of cycloheximide or actinbomycin D, whereas that of ALP-I was not inhibited.     

Hydrolytic Enzymes of Euglena gracilis: Characterization and Activity as a Function of Culture Age and Carbon Deprivation*†

SYNOPSIS. Optimal assay conditions are described for 8 hydrolases of Euglena gracilis var. bacillaris, SM-L1 (streptomycinbleached) strain, 7 of which have an acid pH-optimum. Acid phosphatase, β-galactosidase, β-glucosidase, β-fucosidase, cathepsin D, RNase, DNase, and an esterase are active in cell homogenates. Amylase has very low activity, and β-glucuronidase, arylsulfatase, β, N-acetyl-glucosaminidase, α-fucosidase, and α- and β-mannosidase are inactive. Hydrolase activity increases as a culture proceeds from the midexponential to the late stationary-phase of growth, being most pronounced in the case of β-glucosidase. In cultures deprived of a utilizable carbon source, the specific activities of the hydrolases (per mg total protein or dry weight) increase. When expressed on a per cell basis, however, the activities of DNase decrease while those of β-galactosidase, cathepsin D, and RNase increase. The hydrolases appear to be involved in the adaptation of Euglena to the metabolic demands imposed by different conditions of growth.     

Human placental N-acetyl-beta-D-hexosaminidase isozymes. Activity toward native hyaluronic acid.

The activity of purified human hexosaminidases A and B toward hyaluronic acid (HA) isolated from cultured human skin fibroblasts was investigated. The cleavage of N-acetylglucosaminyl residues to monosaccharide N-acetylglucosamines by hexosaminidase isozymes was determined in the presence and absence of purified human β-glucuronidase. The pH optima of this reaction, with and without β-glucuronidase, were 4.5 for hexosaminidase A and 4.0 for hexosaminidase B. The hydrolysis of HA by both hexosaminidase isozymes proceeds linearily for at least 18 h in the presence of β-glucuronidase. Concentrations of 0.5–5 units of either isozyme showed a linear relationship with rate of hydrolysis. Without β-glucuronidase, hexosaminidase only cleaved the terminal N-acetylglucosamine residue. However, under optimal conditions, with β-glucuronidase, the hydrolytic activity of hexosaminidase B was about 30% as efficient as that of hexosaminidase A. Approximately 70% of the HA could be degraded by 5 units of hexosaminidase A in the presence of 0.5 unit of β-glucuronidase, as opposed to 25% degraded by hexosaminidase B. These results probably reflect intrinsic differences in the activities of the two isozymes. Since the substrate (HA) did not inhibit the hydrolysis of a synthetic substrate (4-methylumbelliferyl-β-glucosaminide) by hexosaminidase B, the linear kinetics of HA hydrolysis implies no product inhibition. These data indicate that native HA can be hydrolyzed by the combined activities of β-glucuronidase with hexosaminidase A or hexoaminidase B.     

Purification and characterization of β-glucuronidase from bull seminal plasma and its role in fertilization

Bull seminal plasma contains high levels of β-glucuronidase. The present study describes the isolation and characterization of β-glucuronidase, and its role in fertilization. β-glucuronidase was purified by ion exchange chromatography, saccharolactone-agarose affinity chromatography, and gel filtration. The specific activity of the purified enzyme was 4,414 μmoles/mg protein/min. The purified enzyme showed a single band on 7.5% PAGE. On SDS-PAGE, the enzyme appeared to consist of four identical subunits of M_r 75,000 each. The apparent K_m and V_max for β-glucuronidase were 0.4 mM and 5.7 μmol/min using phenolpthalein mono-β-glucuronic acid as the substrate. β-glucuronidase appeared to accelerate the cumulus dispersion in vitro. © 1994 Wiley-Liss, Inc.