Characterization of γ-glutamyl transpeptidase activity of cultured endothelial cells from porcine brain capillaries

Summary Endothelial cells were isolated with high viability (>93%) from porcine brain capillaries by Percoll gradient centrifugation after purely enzymatic digestion. Primary cultures were grown to confluent cell monolayers and quantitated for the activity of -glutamyl transpeptidase. The -glutamyl transpeptidase activity starts from a high enzymatic level, decreases with time in culture to about 15% of the initial value, and remains constant at this level after day 10 in culture. The activity progression depends on surface conditions. In the presence of collagen, an exponential decrease starts immediately after seeding, with a time constant of 70±10h. In the absence of collagen, -glutamyl transpeptidase activity first decreases on day 1 after plating, recovers to the initial value on day 2 and 3 and afterwards declines exponentially to a low and constant activity level. Ethanol added to the cell culture at a time when low constant activity is reached, reactivates the -glutamyl transpeptidase to 30% of the initial value.     

Regional distribution of membrane-bound γ-glutamyl transpeptidase activity in mouse brain

Activity of membrane-bound -glutamyl transpeptidase (-GTP) was examined in various regions of mouse brain, in capillaries of the cerebral cortex and in telencephalic choroid plexuses. The level of activity in the capillaries was double and that of the choroid plexus nine times that of the -GTP activity found in the brain, septum, hippocampus, hypothalamus, thalamus, cerebellum, frontal cortex, pons, medulla oblongata, and amygdala. Histochemically the -GTP activity was demonstrated in the surface membranes of choroidal cells and in the endothelium of small capillaries.The activities of -GTP of cerebral cortex, choroid plexus, and capillaries from rabbit were 5–17 times greater than those from corresponding areas of mouse brain. While 30 mM methionine stimulated (in vitro) the enzyme from mouse brain, no such effect was observed with the enzyme activity from rabbit brain. The -GTP activity from the capillaries of cerebral cortex of both mouse and rabbit was not effected by the presence of methionine.These findings suggest existence of differences in the specificity of -GTP activity in these two species.     

Bioluminescence probe for γ-glutamyl transpeptidase detection in vivo

To detect γ-Glutamyl Transpeptidase (GGT) activity in vitro and in vivo, a bioluminescence probe with high sensitivity and specificity was well designed and synthesized. This probe can be recognized by GGT and release strong bioluminescence with its further reaction with luciferase. The performance of this probe was demonstrated in vitro and in cells. Finally, we applied the probe for detection of GGT activity in xenograft model.     

Vitamin E,glutathione S-transferase and γ-glutamyl transpeptidase activities in cultured hepatocytes of rats treated with carcinogens

• 1.1. The effects of α-tocopherol and γ-tocotrienol on glutathione S-transferase (GST) and γ-glutamyl transpeptidase (γ-GT) activities in cultured hepatocytes prepared from rats treated with diethylnitrosamine (DEN) and 2-acetylaminofluorene (AAF) were investigated.
• 2.2. Both the α-tocopherol and γ-tocotrienol treated hepatocytes showed significantly higher (P < 0.05) GST activities than untreated hepatocytes prepared from the carcinogen treated rats in the first 3 days of culture. Treatment with α-tocopherol and γ-tocotrienol generally resulted in a tendency to increase the GST activities above that in the untreated hepatocytes.
• 3.3. Treatment with high doses (125–250 μM) of α-tocopherol and low doses (12.5–25 μM) of γ-tocotrienol generally resulted in a significant reduction in γ-GT activities at 1–3 days. γ-GT activities are reduced as the dose of α-tocopherol and γ-tocotrienol are increased.

     

Production of theanine and other γ-glutamyl derivatives by Camellia sinensis cultured cells

The maximum theanine production by Camellia sinensis cultured cells was achieved by culturing in the modified MS medium containing 2 mg/l indole-3-butyric acid, 0.1 mg/l kinetin, 0 mM NH₄NO₃ and 39.6 mM KNO₃ with 40 mM ethylamine hydrochloride or 20 mM ethylamine hydrochloride and 10 mM L-glutamic acid. Other primary amines, such as methylamine, n-butylamine, 2-hydroxyethylamine, 2cyanoethylamine, aniline, benzylamine and phenylethylamine, were also biotransformed to N⁵-alkyl-L-glutamine derivatives by C. sinensis cultured cells.Abbreviations IBA indole-3-butyric acid - K kinetin - MS medium Murashige and Skoog's basal medium (1962) - NMR nuclear magnetic resonance Part 70 in the series Studies on Plant Tissue Culture. For Part 69 see Furuya et al. (1990).     

A modified rapid enzymatic microtiter plate assay for the quantification of intracellular γ-aminobutyric acid and succinate semialdehyde in bacterial cells

The GABase assay is widely used to rapidly and accurately quantify levels of extracellular γ-aminobutyric acid (GABA). Here we demonstrate a modification of this assay that enables quantification of intracellular GABA in bacterial cells. Cells are lysed by boiling and ethanolamine-O-sulphate, a GABA transaminase inhibitor is used to distinguish between GABA and succinate semialdehyde.     

The first normal oral mucosa epithelium in which γ-glutamyl transpeptidase activity has been detected

Summary A portion of consistently -glutamyl transpeptidase-positive epithelium in the normal oral mucosa of rats is described. This is the first normal oral mucosa epithelium reported to express activity of the transpeptidase. This enzyme has been used as a marker of malignant transformation in tissues, such as epidermis and oral mucosa epithelium. Complementary studies of the enzyme-positive portion of oral mucosa and a neighbouring negative portion, suggest that, in this model, expression of -glutamyl transpeptidase is linked to a terminally-differentiated epithelium.     

A sensitive fluorometric assay for dopamine-β-hydroxylase activity by high-performance liquid chromatography

A sensitive and specific fluorometric assay for dopamine-β-hydroxylase (DBH) activity is described. The main natural substrate, dopamine (DA), was used and incubated under optimal conditions. Norepinephrine (NE) formed enzymatically from DA was isolated by an aluminum oxide column and was analyzed by high-performance liquid chromatography (HPLC) with trihydroxyindole fluorescence. Epinephrine (EN) was added to the incubation mixture as an internal standard after incubation, and this assay was therefore highly reproducible. HPLC conditions were settled to elute the product, NE, prior to the substrate, DA, and the internal standard, EN, between NE and DA. Only catecholamines produced significant peaks, and therefore, this assay is highly specific. We applied this method to measure the DBH activity in human serum and cerebrospinal fluid.     

Glutathione and γ-glutamyl transpeptidase are differentially distributed in the olfactory mucosa of rats

Summary Components of the -glutamyl cycle, including thiols, glutathione (GSH) and -glutamyl transpeptidase (-GT), were localized in the nasal mucosae of rats using histochemical and immunohistochemical methods. In olfactory mucosa, thiols were widely distributed, with intense staining in the mucociliary complex (MC), basal cells, acinar cells of Bowman's glands (BG), and olfactory nerve bundles, and with moderate staining in olfactory receptor neurons (ORNs). GSH was localized in MC, BG acinar cells, nerve bundles and, to a lesser extent, in ORNs. -GT immunoreactivity was restricted to the MC and to basolateral and apical membranes of BG acinar and duct cells. The basolateral membrane of BG acinar cells, located in close association with blood vessels and connective tissue, showed granule-like immunoreactivity. Inrespiratory mucosa, all three compounds were localized in the MC and acinar cells of respiratory glands (RG). In the MC, -GT immunoreactivity was associated primarily with brush borders of ciliated cells. Granular immunoreactivity was also apparent in the supranuclear region of RG acinar cells. These results demonstrate that components of the -glutamyl cycle are localized in olfactory and respiratory glands, and that they are secreted into the mucus, where they may mediate perireceptor events such as detoxification and/or solubilization of air-borne xenobiotics, toxicants and odorants.     

Improved catalytic efficiency of a monomeric γ-glutamyl transpeptidase from Bacillus licheniformis in presence of subtilisin

Monomeric 30 kDa γ-glutamyl transpeptidase (GGT₃₀) was purified from culture broth of Bacillus licheniformis ER-15 along with a heterodimeric 67 kDa GGT (GGT₆₇). In presence of subtilisin, GGT₃₀ had improved catalytic efficiency (V_max/K_m) of 59 min^?1, altered pH and temperature optima of pH 11 and 70°C.and had salt-tolerant glutaminase activity. Glutaminase activity was retained even in protease-inhibited condition in presence of 2 mM PMSF. GGT₃₀ and subtilisin complexation was also confirmed by relative electrophoretic mobility and fluorescence quenching experiment.     

Glutathione-analogous peptidyl phosphorus esters as mechanism-based inhibitors of γ-glutamyl transpeptidase for probing cysteinyl-glycine binding site

γ-Glutamyl transpeptidase (GGT) catalyzing the cleavage of γ-glutamyl bond of glutathione and its S-conjugates is involved in a number of physiological and pathological processes through glutathione homeostasis. Defining its Cys-Gly binding site is extremely important not only in defining the physiological function of GGT, but also in designing specific and effective inhibitors for pharmaceutical purposes. Here we report the synthesis and evaluation of a series of glutathione-analogous peptidyl phosphorus esters as mechanism-based inhibitors of human and Escherichia coli GGTs to probe the structural and stereochemical preferences in the Cys-Gly binding site. Both enzymes were inhibited strongly and irreversibly by the peptidyl phosphorus esters with a good leaving group (phenoxide). Human GGT was highly selective for l-aliphatic amino acid such as l-2-aminobutyrate (l-Cys mimic) at the Cys binding site, whereas E. coli GGT significantly preferred l-Phe mimic at this site. The C-terminal Gly and a l-amino acid analogue at the Cys binding site were necessary for inhibition, suggesting that human GGT was highly selective for glutathione (γ-Glu-l-Cys-Gly), whereas E. coli GGT are not selective for glutathione, but still retained the dipeptide (l-AA-Gly) binding site. The diastereoisomers with respect to the chiral phosphorus were separated. Both GGTs were inactivated by only one of the stereoisomers with the same stereochemistry at phosphorus. The strict recognition of phosphorus stereochemistry gave insights into the stereochemical course of the catalyzed reaction. Ion-spray mass analysis of the inhibited E. coli GGT confirmed the formation of a 1:1 covalent adduct with the catalytic subunit (small subunit) with concomitant loss of phenoxide, leaving the peptidyl moiety that presumably occupies the Cys-Gly binding site. The peptidyl phosphonate inhibitors are highly useful as a ligand for X-ray structural analysis of GGT for defining hitherto unidentified Cys-Gly binding site to design specific inhibitors.     

Hyperproduction of γ-glutamyl transpeptidase from Bacillus licheniformis ER15 in the presence of high salt concentration

Background: Microbial γ-glutamyl transpeptidases (GGTs) have been exploited in biotechnological, pharmaceutical, and food sectors for the synthesis of various γ-glutamyl compounds. But, till date, no bacterial GGTs are commercially available in the market because of lower levels of production from various sources. In the current study, production of GGT from Bacillus licheniformis ER15 was investigated to achieve high GGT titers. Results: Hyperproduction of GGT from B. licheniformis ER15 was achieved with 6.4-fold enhancement (7921.2?±?198.7?U/L) by optimization of culture medium following one-variable-at-a-time strategy and statistical approaches. Medium consisting of Na₂HPO₄: 0.32% (w/v); KH₂PO₄: 0.15% (w/v); starch: 0.1% (w/v); soybean meal: 0.5% (w/v); NaCl: 4.0% (w/v), and MgCl₂: 5?mM was found to be optimal for maximum GGT titers. Maximum GGT titers were obtained, in the optimized medium at 37°C and 200?rpm, after 40?h. It was noteworthy that GGT production was a linear function of sodium chloride concentration, as observed during response surface methodology. While investigating the role of NaCl on GGT production, it was found that NaCl drastically decreased subtilisin concentration and indirectly increasing GGT recovery. Conclusion: B. licheniformis ER15 is proved to be a potential candidate for large-scale production of GGT enzyme and its commercialization.     

Immobilization of γ-glutamyl transpeptidase,a membrane enzyme,in gel beads via liposome entrapment

Bovine kidney γ-glutamyl transpeptidase, a membrane enzyme, was immobilized in gel beads by application of the method of Wallstén et al. (Biochim. Biophys. Acta, 982, 47–52, 1989). The gel beads were equilibrated with a dispersion of the enzyme, phospholipids, and cholate and subsequently dialyzed against a buffer for reconstitution and immobilization of enzyme-bound liposomes in the pores of the beads. From the standpoints of the immobilized contents of protein and phospholipids and of the reactivity of γ-glutamyl transpeptidase, a dialysis buffer of Tris-HCl (pH 7.5), a phospholipid concentration of 45 mg/ml in the enzyme-phospholipid-cholate dispersion, and the use of Sepharose CL-6B as the support gel were found to be most appropriate for the immobilization of γ-glutamyl transpeptidase, γ-Glutamyl transpeptidase was activated and stabilized by reconstitution in liposomes. In operation with a packed bed reactor, liposome-bound γ-glutamyl transpeptidase immobilized in Sepharose CL-6B exhibited relatively stable and constant activity for 12 h. In addition, it was found that enzyme substrates were able to pass through the pores of the gel beads to interact with the enzyme present on the outer surface of the liposome membrane in the gel beads. These results thus indicated that a novel support made up of liposomes and Sepharose CL-6B would permit efficient immobilization of lipid-requiring and/or membrane enzymes.     

Synthesis and evaluation of the inhibitory activity of the four stereoisomers of the potent and selective human γ-glutamyl transpeptidase inhibitor GGsTop

2-Amino-4-{[3-(carboxymethyl)phenoxy](methoxy)phosphoryl}butanoic acid (GGsTop) is a potent, highly selective, nontoxic, and irreversible inhibitor of γ-glutamyl transpeptidase (GGT). GGsTop has been widely used in academic and medicinal research, and also as an active ingredient (Nahlsgen) in commercial anti-aging cosmetics. GGsTop consists of four stereoisomers due to the presence of two stereogenic centers, i.e., the α-carbon atom of the glutamate mimic (l/d) and the phosphorus atom (R_P/S_P). In this study, each stereoisomer of GGsTop was synthesized stereoselectively and their inhibitory activity against human GGT was evaluated. The l- and d-configurations of each stereoisomer were determined by a combination of a chiral pool synthesis and chiral HPLC analysis. The synthesis of the four stereoisomers of GGsTop used chiral synthetic precursors that were separated by chiral HPLC on a preparative scale. With respect to the configuration of the α-carbon atom of the glutamate mimic, the l-isomer (k_on = 174 M^?1 s^?1) was ca. 8-fold more potent than the d-isomer (k_on = 21.5 M^?1 s^?1). In contrast, the configuration of the phosphorus atom is critical for GGT inhibitory activity. Based on a molecular modeling approach, the absolute configuration of the phosphorus atom of the active GGsTop isomers was postulated to be S_P. The S_P-isomers inhibited human GGT (k_on = 21.5–174 M^?1 s^?1), while the R_P-isomers were inactive even at concentrations of 0.1 mM.     

Membrane-bound γ-glutamyl transpeptidase and its rôle in phenylalanine absorption-reabsorption in the larva of Musca domestica

Most of the γ-glutamyl transpeptidase (γ-GTP) activity of actively feeding third instar housefly larvae is located on the brush border of the proximal half of the Malpighian tubules and the brush border of epithelial cells of the anterior and posterior portions of the midgut. It is concluded that these membranes are the major sites of synthesis of the dipeptide, γ-l-glutamyl-l-phenyl-alanine (γ-glu-phe).In effect, γ-GTP and γ-glu-phe form a highly specific system for the absorption and reabsorption of phenylalanine from the lumen of the midgut and Malpighian tubules. Thus, membrane-bound γ-GTP combines with phenylalanine and glutathione and the resulting γ-glu-phe is translocated across the cell membrane and released within the cell. The dipeptide then enters the blood, presumably by simple diffusion in response to the concentration gradient generated by its build-up within the cell. It accumulates in the blood during larval growth and finally is consumed upon the onset of puparium tanning.Puparium formation was accompanied by an abrupt, ecdysone-induced appearance of intense γ-GTP activity on the epidermal cell membrane at the epidermis-cuticle interface. Epidermal cell γ-GTP activity was maximal 1 to 2 hr after puparium formation, after which time it began to diminish rapidly. It became virtually undectectable by the larval-pupal apolysis. Functionally, this hormonally induced new γ-GTP may catalyse reaction(s) which result in a rapid liberation of phenylalanine from γ-glu-phe for its subsequent conversion to tyrosine and quinones for tanning the puparium.The possibility that γ-GTP may also function in the transport of other amino acids in the housefly and in other insect genera is considered in terms of the Orlowski-Meister concept of a ‘γ-glutamyl cycle’.     

17β-hydroxysteroid dehydrogenase activity in cultured myometrial cells: Effect of serial subcultures

17β-Hydroxysteroid dehydrogenase (17β-SDH) activity was studied in culture ovine rayometrial cells. After primary culture, cells were routinely subcultured (every 7th day), seeded at 5–10⁵ cells per dish and grown in a medium with 2% of serum. 17β-SDH activity was measured by incubating intact cell monolayers with [³H]-estradiol (5·10⁻⁶) in serum-free medium. Metabolites were extracted from both cells and medium, and separated by thin-layer chromatography. 17β-SDH was expressed as total E i formed (cells + medium) in fmol/mg of protein as a function of time. 17β-SDH has an approximate K_m of 5–10⁻⁶ M. After 3 min of incubation, all measurable E₁ is within the cells; it is progressively released but after l h only 40% of E₁ is found in the medium. 17β-SDH decreases from day 2 to day 8 of each subculture, whereas total proteins increase. Subculture partially restores 17β-SDH activity so that it is always higher on day 2 of any subculture than on day 8 of the previous one. however a progressive decline occurs with successive subcultures. This decline parallels the slowing of cell growth and overall protein synthesis and probably reflects cell ageing.     

Direct evidence for inter-organ transport of glutathione and that the non-filtration renal mechanism for glutathione utilization involves γ-glutamyl transpeptidase

A direct examination of the inter-organ cycle of glutathione metabolism was made by determining glutathione levels in plasma obtained from various blood vessels of the rat. High levels of GSH were found in hepatic vein plasma, relative to arterial and systemic venous levels, reflecting translocation of GSH from the liver to the plasma. Renal vein plasma has a level that is 20% of arterial plasma indicating that the kidney removes glutathione from plasma not only by glomerular filtration (which can account for 20–30% of the glutathione removed), but also by a non-filtration mechanism. Inhibitors of γ-glutamyl transpeptidase decrease the fraction of glutathione removed by the kidney to a value approaching that filtered, indicating that the non-filtration mechanism involves γ-glutamyl transpeptidase.     

High-affinity uptake of γ-aminobutyric acid in cultured glial and neuronal cells

Both glial and neuronal cells maintained in primary culture were found to accumulate [³H]GABA by an efficient high-affinity uptake system (apparentK _m=9 M,V _max=0.018 and 0.584 nmol/mg/min, respectively) which required sodium ions and was inhibited by 1 mM ouabain. Strychnine and parachloromercuriphenylsulfonate (pCS) (both at 1 mM) also strongly inhibited uptake of [³H]GABA, but metabolic inhibitors (2,4-dinitrophenol, potassium cyanide, and malonate) were without effect. Only three structural analogs of GABA (nipecotate, -alanine, and 2,4-diaminobutyrate) inhibited uptake of [³H]GABA, while several other compounds with structural similarities to GABA (e.g. glycine,l-proline, and taurine) did not interact with the system. The kinetic studies indicated presence of a second uptake (K _m=92 M,V _max=0.124 nmol/mg/min) in the primary cultures containing predominantly glioblasts. On the other hand, only one of the neuronal cell lines transformed by simian virus SV40 appeared to accumulate [³H]GABA against a concentration gradient. ApparentK _m of this uptake was relatively high (819 M), and it was only weakly inhibited by 1 mM ouabain and 1 mM pCS. The structural specificity also differed from that of the uptake observed in the primary cultures. Significantly, none of the nontransformed continuous cell lines of either tumoral (glioma, C₆; neuroblastoma, Ml; MINN) or normal (NN; I₆) origin actively accumulated [³H]GABA. It is suggested that for the neurochemical studies related to GABA and requiring homogeneous cell populations, the primary cultures offer a better experimental model than the continuous cell lines.     

A quantitative cytochemical assay of β-galactosidase in single cultured human skin fibroblasts

Summary A quantitative cytochemical method for the measurement of -galactosidase activity in cultured human skin fibroblasts has been developed using 5-bromo-4-chloro-3-indolyl--D-galactopyranoside as the indigogenic substrate. The method relies upon the oxidation of the primary reaction product by ferro/ferricyanide during which an insoluble indigo dye is generated as the final reaction product. The reaction was linear with time up to 60 min using the final cytochemical standard procedure. The enzyme showed maximum activity at pH 4.0 to 4.1. The concentration optima of indigogenic substrate and potassium ferro/ferricyanide were 3.67 mM and 3.13 mM respectively. The presence of sodium chloride activated -galactosidase up to 100 mM, but was inhibitory above that concentration. The enzyme was inhibited by N-ethylmaleimide, N-acetyl-D-galactosamine and heparin. The enzyme molecules were shown to diffuse out of the cells using media without a suitable inert colloid stabilizer. However, diffusion was completely prevented by using polyvinyl alcohol (PVA) grade G18/140. Air-drying of cells was essential to make the cell membrane permeabel to the substrate and, thereby, to avoid a pronounced lag phase. However, in a biochemical analysis, air-drying itself caused a decrease in enzyme activity to 43% of the control. Even after air-drying lysosomal latency could still be demonstrated by using PVA grade G04/140.Control persons, one carrier of and two patients with -galactosidase deficiency were easily identified as belonging to three separate groups by using the cytochemical assay.It is proposed that the quantitative cytochemical approach may also be applied to cultured human amniotic fluid cells or chorion biopsies giving a rapid prenatal diagnosis of -galactosidase deficiency due to the small number of cells needed in the analysis.     

Mode of action of sulfoxides in preventing loss of activity of 11β-hydroxylase in cultured bovine adrenocortical cells

Previously, loss of 11β-hydroxylase activity when adrenocortical cells are incubated with the pseudosubstrate cortisol was found to be reduced when the concentration of oxygen was lowered, or when butylated hydroxyanisole (BHA) or dimethyl sulfoxide (Me₂SO) were included in the medium. In the present experiments, we tested the hypothesis that Me₂SO protects 11β-hydroxylase by scavenging OH^? radicals. Substances known to react with OH^? at high rates and non-toxic enough to be used at concentrations of 10–100 mM, including several alcohols, benzoate and radioprotectant thiols, did not prevent loss of activity of 11β-hydroxylase in the presence of 50 μM cortisol. Two of the alcohols, ethanol and glycerol, as well as Me₂SO, were radioprotective in cultured bovine adrenocortical cells. Therefore free OH^? radicals do not appear to be involved in loss of 11β-hydroxylase activity. When sulfoxides other than dimethyl sulfoxide were tested for their ability to protect 11β-hydroxylase in the presence of cortisol, several aryl sulfoxides, particularly dibenzyl sulfoxide, as well as dipropyl sulfoxide, were active at concentrations to $\text{1}\text{200}$ of that required for Me₂SO. Previously, we have demonstrated that 11β-hydroxylase inhibitors, particularly metyrapone, effectively protect against loss of 11β-hydroxylase activity in the presence of pseudosubstrates and therefore we examined whether sulfoxides may act by directly inhibiting 11β-hydroxylase. Me₂SO showed an ED₅₀ for inhibition of 11β-hydroxylase activity of > 1 M, in contrast to its ED₅₀ for protection of 34 mM. For metyrapone, however, the ED₅₀ for inhibition of the enzyme (250 nM) was close to that for protection of activity (270 nM). The other sulfoxides showed ED₅₀-values for inhibition of 11β-hydroxylase that were substantially higher than the ED₅₀-values for protection. Sulfoxides may have a mixed mode of action in protection of 11β-hydroxylase activity, as previously shown for phenols; they may protect by radical scavenging, but may also need to bind close to the active site of the enzyme where destructive radicals may be formed.