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.     

Histochemistry of proteases in ependyma,choroid plexus and leptomeninges

Summary Aminopeptidase M (APM), aminopeptidase A (APA), dipeptidyl peptidase IV (DPP IV) and -glutamyl transferase (GGT) were demonstrated histochemically in cryostat sections of the rat brain to show the reaction pattern of ependyma, choroid plexus and leptomeninges. GGT was only demonstrable in the cell membranes of ependymal cells and in the leptomeninges; however, APA, APM and DAP IV showed a variable degree of activity in the capillary endothelium of the choroid plexus as well as in the leptomeninges. On the basis of these results, it is postulated that peptides in the cerebrospinal fluid can be cleaved extraventricularly by the enzymes demonstrated in the leptomeninges.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthday     

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.     

A fluorometric assay for γ-glutamyl transpeptidase: Demonstration of enzymatic activity in cultured cells of neural origin

A new fluorometric assay was developed for the measurement of -glutamyl transpeptidase (-GTP). The assay utilizes as a substrate the synthetic compound 7--glutamylamido-4-methyl coumarin which is cleaved by -GTP to yield the highly fluorescent product 7-amino-4-methyl coumarin. Optimal excitation and emission wavelengths for the assay are 345 nm and 470 nm, respectively, and the sensitivity of the assay is greatly enhanced by the high-pressure liquid chromatographic separation of the product from the substrate. The assay is minimally 25 times more sensitive than the conventional spectrophotometric assay and permits analysis of as little as 5000 cultured cells of neuronal and glial origin. Analysis of a variety of cultured cells of neuronal and glial origin with this assay suggests that -GTP is largely present in glia and to a lesser extent in neurons.     

In situ localization of enzymes and mucin in normal rat colon embedded in plastic

Summary Several enzymes were investigated histochemically in the colons of normal male F344 rats in order to understand the function of different types of cells in this tissue. Serial methacrylate-embedded sections (2–4 µm) allowed the precise localizations of several enzymes including acid phosphatase, alkaline phosphatase, -glutamyl transpeptidase,N-acetyl--d-glucosaminidase (hexosaminidase), -naphthyl butyrate esterase and 5-nucleotidase. Sites reactive with periodic acid-Schiff were also localized. Gradients of enzyme activity were observed between caecum and rectum and/or from the luminal surfaces to the bases of the crypts for hexosaminidase, esterase and -glutamyl transpeptidase. To our knowledge this is the first histochemical demonstration of -glutamyl transpeptidase in normal rat colonic epithelial cells. The utilization of the methacrylate-embedding technique has revealed previously undescribed gradients of enzyme activity and has allowed the localization of enzyme activities not previously reported in normal rat colonic mucosa.     

γ-Glutamyl transpeptidase: catalytic,structural and functional aspects

Summary -Glutamyl transpeptidase catalyzes transfer of the -glutamyl moiety of glutathione to amino acids, dipeptides, and to glutathione itself; the enzyme also catalyzes the hydrolysis of glutathione to glutamate and cysteinyl-glycine. This review deals with the tissue distribution and localization of the enzyme in mammals, the catalytic properties of the enzyme (including its inhibition by reversible and irreversible inhibitors), structural studies on the enzyme, and new findings about its physiological function.     

Protease cytochemistry in the murine rodent,guinea-pig and marmoset placenta

Summary Plasma membrane and lysosomal proteases, -glutamyl transferase and extracellular matrix proteases were investigated by qualitative cytochemical means in the mature placenta of mice, rats, guinea-pigs and marmosets. These studies revealed similarities, which concerned, primarily the lysosomal proteases in different structures of the placenta and all proteases and -glutamyl transferases in the zone of placental shedding. However, species differences predominated. They were observed especially for aminopeptidase A and M, dipeptidyl peptidase IV and -glutamyl transferase in the plasma membranes and extracellular matrix of the placental barrier and decidual cells of all species and the cells of the basal zone in rats and mice. Plasma membrane and extracellular matrix proteases in other parts of the placenta, e.g. the placenta stem of guinea-pigs and basel plate, amniotic and chorionic plate of marmosets occurred only in these species. Elastase substrates hydrolysing endopeptidase I and kallikrein-, thrombin-, plasmin-, plasminogen- and cathepsin B substrates hydrolysing endopeptidase II were not observed in any of these species. A general comparison of the species revealed similarities for the mouse, rat and guinea-pig placental barrier, but not for that of marmosets. The proteases of this zone in the marmoset placenta are more similar to the human situation, but do not correspond to it completely.In honour of Prof. P. van DuijnSupported by the BMFT (Project CMT 35) and Sfb 174In part presented at a Symposion on Progress in General, Applied and Diagnostic Histochemistry (Modra, Czechoslovakia on 12–15 April, 1984; abstracts published in Histochem J 17, No 5, 1985)     

Subcellular and regional localization ofγ-glutamyl transpeptidase in sheep brain

Studies of the subcellular distribution of-glutamyl transpeptidase from sheep brain by discontinuous sucrose density gradient centrifugation showed that 40% of the transpeptidase activity associated with the mitochondrial-synaptosomal fraction was localized with the synaptosomal-enriched fraction. The microsomal fraction was found to have the highest specific activity when-glutamylp-nitroanalide was used as substrate. This activity, however, represented only 5% of the total-glutamyl transpeptidase activity. Approximately 90% of the total enzyme activity was apparently associated with the fraction containing cell debris and membrane fragments.The 160,000g supernatant fluid (soluble supernatant fraction) represented the least total activity, with only 1.2% recovery; however, this fraction contained two apparent forms of the enzyme. One form had a highK _mand the other a lowK _m for the substrate,-glutamylp-nitroanilide.It was observed that the enzyme-glutamyl transpeptidase was not evenly distributed in all areas of brain when the homogenate was used as the enzyme source. The brain region with the highest enzyme activity was the thalamus, which was able to form 1.10 molp-nitroanaline/min/g wet brain tissue. The cortex was found to have the lowest activity. The 40,000g supernatant fluid from each region, however, exhibited only slight distribution differences.     

The γ-Glutamyl Transpeptidase Inhibitor Acivicin Preserves Glutathione Released by Astroglial Cells in Culture

The release of glutathione from astroglial cells was investigated using astroglia-rich primary cultures prepared from the brains of newborn rats. These cells release glutathione after onset of an incubation in a glucose-containing minimal medium. The amount of extracellular glutathione increased with the time of incubation, although the accumulation slowed down gradually. An elevated rate of increase of the glutathione concentration in the incubation medium was found if the astroglial ectoenzyme -glutamyl transpeptidase was inhibited by acivicin. The activity of -glutamyl transpeptidase in astroglia-rich primary cultures, which was found to be 1.9 ± 0.3 nmol/(min × mg protein), was markedly reduced if the cells had been incubated in the presence of acivicin. After 2 h of incubation with acivicin half-maximal and maximal inhibition of -glutamyl transpeptidase activity was found at concentrations of about 5 M and 50 M, respectively. In the presence of acivicin at a concentration above 10 M the glutathione content found released from astroglial cells apparently increased almost proportional to time for up to 10 h. Under these conditions the average rate of release was 2.1 ± 0.3 nmol/(h × mg protein) yielding after a 10 h incubation an extracellular glutathione content three times that of the medium of cells incubated without inhibitor. Half-maximal and maximal effects on the level of extracellular glutathione were found at 4 M and 50 M acivicin, respectively. After a 10 h incubation with acivicin the intracellular content of glutathione was reduced to 75% of the level of untreated astroglial cultures. These results suggest that glutathione released from astroglial cells can serve as substrate for the ectoenzyme -glutamyl transpeptidase of these cells.