Bente Mortensen

Elimination of alkaline phosphatases from circulation by the galactose receptor. Different isoforms are cleared at various rates.

Three isoforms of human alkaline phosphatase (liver, bone and placental ALP) were purified and their elimination studied after intravenous injection in rats. The rates of elimination were significantly inhibited by prior injection of asialofetuin, indicating that the uptake was mediated by the galactose receptor in liver. Their relative clearance rates differed, being rapid for the bone ALP, significantly slower for the liver isoform and very slow for the placental ALP. The bone ALP showed a rapid initial clearance, apparently related to its large glycan heterogeneity and to the presence of molecules with a low sialic acid content. When isolated from serum the liver and bone ALP isoforms showed clearance rates differing slightly from those of the organ derived forms. We conclude that differences in carbohydrate structure and amount of sialic acid of the three isoforms result in various clearance rates. These differences will also affect their serum concentrations as well as the composition and heterogeneity of the individual isoforms in serum.

Regulation of γ‐glutamyltransferase in cisplatin‐resistant and ‐sensitive colon carcinoma cells after acute cisplatin and oxidative stress exposures

Glutathione plays an important role in drug resistance of tumor cells and in their ability to resist oxidative stress. Improved salvage of glutathione can be obtained through increased activity of γ‐glutamyltransferase (GGT), which is of importance in the maintenance of cellular glutathione homeostasis. We investigated the regulation of GGT in 2 cisplatin‐resistant and 1 cisplatin‐sensitive colon carcinoma cell lines. Enzyme activity was induced in all 3 cell lines after acute exposure to cisplatin. The elevation was significantly higher in sensitive cells (3.3‐fold) than in resistant (1.6‐ to 1.7‐fold) cells. Exposure of cells to oxidative stress generated by menadione also resulted in enzyme induction but only in cisplatin‐sensitive cells. Addition of anti‐oxidants had different effects on the 2 inductions: N‐acetylcysteine blocked the induction of both cisplatin and menadione, whereas catalase and glutathione‐ester blocked only the menadione induction. Glutathione depletion alone was not sufficient to induce GGT in these cells. The data show that GGT is regulated by multiple mechanisms during anti‐tumor drug treatment and oxidative stress and that reactive oxygen species were involved in the menadione, but not cisplatin, induction of the enzyme. Int. J. Cancer 88:464–468, 2000.

Nitric Oxide Exposure of CC531 Rat Colon Carcinoma Cells Induces γ-glutamyltransferase which May Counteract Glutathione Depletion and Cell Death

n -Glutamyltransferase (GGT) has a central role in glutathione homeostasis by initiating the breakdown of extracellular GSH. We investigated in the present study whether nitric oxide exposure of CC531 rat colon carcinoma cells modulates GGT and how the activity of the enzyme affects the level of intracellular GSH. The data show that GGT activity was induced in a dose-related manner by two NO-donors (spermineNONOate and nitrosoglutathione) and that antioxidants partly inhibited the induction. SpermineNONOate lowered intracellular GSH and induced apoptosis. Cultivating the cells in cystine-depleted medium also resulted in a 50% lowering of GSH, but this was avoided when GSH was added to the medium. This effect was mediated by the activity of GGT and shown after inhibiting GGT activity with acivicin and cyst(e)ine transporters with alanine and homocysteic acid. This shows that the cells benefit from GGT in maintaining the intracellular GSH level. Cells with induced GGT activity obtained after NO incubation showed a higher uptake rate of cysteine (2-fold), measured by incubating the cells with 35 S-radiolabeled GSH. The enzyme was also induced by interferon- n and tumor necrosis factor- f, but this induction was not connected to activation of the endogenous nitric oxide synthase, as the addition of aminoguanidine, a NO-synthase inhibitor, did not affect the induction. The present study shows that the activity of GGT is upregulated by NO-donors and that the colon carcinoma cells, when cultivated in cystine-depleted medium, benefit from the enzyme in maintaining the intracellular level of GSH. Thus, the enzyme will add to the protective measures of the tumor cells during nitrosative stress.

Clearance of circulating γ-glutamyltransferase by the asialoglycoprotein receptor. Enzyme forms with different sialic acid content are eliminated at different clearance rates and without apparent desialylation

gamma-Glutamyltransferase is eliminated from the circulation via the asialoglycoprotein receptor in liver. After purifying the enzyme from human liver, a subfractionation into differently sialylated forms was obtained using MonoQ ion exchange chromatography. The uptake of such forms from rat circulation was studied and the slowest rate was measured for the most sialylated form. To test if the uptake of the sialylated enzymes was dependent on prior desialylation in the circulation the enzyme was recovered from liver after uptake and from serum after inhibiting the uptake with asialofetuin. Analysis of these recovered forms showed no apparent alteration in charge. The enzyme is apparently eliminated without prior desialylation through available galactose units which bind with low affinity to the receptor.

The expression of γ-glutamyltransferase in rat colon carcinoma cells is distinctly regulated during differentiation and oxidative stress

Gamma glutamyltransferase (GGT) is a plasma membrane bound enzyme that initiates the degradation of glutathione. The presence of several promoters in the rat GGT gene indicates strict control and regulation of its expression. The aim of this study was to investigate whether the GGT gene was regulated differently after butyrate-induced differentiation and oxidative stress exposure of rat colon carcinoma cells and whether the regulation was related to the glutathione level. The activity of GGT was upregulated in a time-and-dose dependent manner after both butyrate and menadione incubations. The presence of antioxidants blocked the menadione but not the butyrate mediated induction of the enzyme. The level of intracellular glutathione was reduced after menadione, but not after butyrate incubations. Depletion of glutathione alone did not alter GGT activity. Reactive oxygen species (ROS) were not produced after incubations with butyrate, while menadione incubations produced ROS. The multiple GGT mRNA transcripts (mRNA I–V) that originate from the five distinct promoters were all present in the cell line. Incubations with butyrate enhanced mRNA II and IV transcripts whereas a reduction in mRNA IV-1 was noted during menadione incubations. The level of total GGT mRNA (I–V) was not altered when related to the amount of total β-actin mRNA. We conclude that GGT activity can be upregulated by at least two distinct mechanisms during differentiation and oxidative stress. Apparently, the regulation of the enzyme is not directly linked to the intracellular level of glutathione.

Serum γ-glutamyltransferase and alkaline phosphatase during experimental liver metastases. Detection of tumour-specific isoforms and factors affecting their serum levels

Tumour-specific isoenzymes and tumour markers in serum are potentially useful in the detection and monitoring of liver metastases. An experimental rat model was used in the search for such isoenzymes and to study factors affecting their serum levels. Splenic injection of CC531 colon carcinoma cells in syngeneic WagRij rats caused liver metastases after 3 weeks with concomitant and significant increases in serum levels of gamma-glutamyltransferase (GT) and alkaline phosphatase (ALP). The presence of tumour-specific isoforms of both enzymes, as well as increased amounts of the liver isoform of ALP, were demonstrated in serum. The serum levels of the tumour variants were clearly related to their elimination rates from the circulation. Thus, the slow clearance of the tumour ALP resulted in high serum levels of this isoform, compared with the more rapid elimination of tumour GT and its lower serum level. When using another colon carcinoma cell line (DHD/K12), metastatic to liver in BD IX rats, no increases in serum GT were detected. This was related to the rapid elimination from the circulation of the GT variant from the DHD/K12 metastatic tissue. The relatively high amount of the tumour ALP isoform detected in serum during growth of the CC531 liver metastases indicated that this isoform could be useful as a marker of tumour growth.

Butyrate reduces liver metastasis of rat colon carcinoma cells in vivo and resistance to oxidative stress in vitro.

Injection of the rat colon carcinoma cell line CC531 into spleen of syngeneic rats results in considerable amounts of liver metastases within 14 days. We investigated whether preincubation of the cells with butyrate reduced their metastatic ability in vivo and whether this was accompanied by reduction in related properties such as secretion of metalloproteinases and their ability to withstand oxidative stress. Butyrate incubation reduced cell growth rate and initiated apoptosis in a dose and time-related manner, but proliferation was retrieved when cultivation was continued in medium without butyrate. Splenic injection of butyrate treated, proliferating cells resulted in significantly reduced amounts of tumor mass compared to untreated cells. The butyrate treated cells were more susceptible to oxidative stress than control cells, as demonstrated by increased number of apoptotic cells and reduced cell growth after exposure to menadione. A reduction in cellular glutathione was found after prolonged incubation with butyrate. Butyrate appeared not to alter the secretion of active metalloproteinases from the cells although an apparent increase in proforms was demonstrated. Neither did butyrate alter the synthesis of metalloproteinase inhibitors. Lastly, a reduced adhesion of the tumor cells to collagen coated matrix was found after butyrate treatment. Thus, the inhibitory effects of butyrate on tumor malignancy are caused by a diversity of mechanisms.

Clearance of circulating γ-glutamyltransferase by the hepatic galactose receptor. Variability in clearance rate due to carbohydrate heterogeneity of the enzyme

The clearance and organ uptake of gamma-glutamyltransferase was studied by injecting the purified human liver enzyme intravenously in the rat. The enzyme was almost exclusively taken up by liver hepatocytes with a rapid initial uptake. The clearance was significantly inhibited by asialofetuin as well as by galactose and fucose. The uptake of neuraminidase-treated enzyme was much more rapid than that of the native enzyme. Subfractions of gamma-glutamyltransferase obtained by lectin affinity chromatography revealed significant differences in clearance rates. The data strongly indicates that the uptake of circulating gamma-glutamyltransferase involves the galactose (asialo-glycoprotein) receptor of the parenchymal cells, and that the heterogeneity of gamma-glutamyltransferase results in varying clearance rates.

Cleavage of the urokinase receptor (uPAR) on oral cancer cells: regulation by transforming growth factor – β1 (TGF-β1) and potential effects on migration and invasion

BackgroundUrokinase plasminogen activator (uPA) receptor (uPAR) is up-regulated at the invasive tumour front of human oral squamous cell carcinoma (OSCC), indicating a role for uPAR in tumour progression. We previously observed elevated expression of uPAR at the tumour-stroma interface in a mouse model for OSCC, which was associated with increased proteolytic activity. The tumour microenvironment regulated uPAR expression, as well as its glycosylation and cleavage. Both full-length- and cleaved uPAR (uPAR (II-III)) are involved in highly regulated processes such as cell signalling, proliferation, migration, stem cell mobilization and invasion. The aim of the current study was to analyse tumour associated factors and their effect on uPAR cleavage, and the potential implications for cell proliferation, migration and invasion.MethodsMouse uPAR was stably overexpressed in the mouse OSCC cell line AT84. The ratio of full-length versus cleaved uPAR as analysed by Western blotting and its regulation was assessed by addition of different protease inhibitors and transforming growth factor - β1 (TGF-β1). The role of uPAR cleavage in cell proliferation and migration was analysed using real-time cell analysis and invasion was assessed using the myoma invasion model.ResultsWe found that when uPAR was overexpressed a proportion of the receptor was cleaved, thus the cells presented both full-length uPAR and uPAR (II-III). Cleavage was mainly performed by serine proteases and urokinase plasminogen activator (uPA) in particular. When the OSCC cells were stimulated with TGF-β1, the production of the uPA inhibitor PAI-1 was increased, resulting in a reduction of uPAR cleavage. By inhibiting cleavage of uPAR, cell migration was reduced, and by inhibiting uPA activity, invasion was reduced. We could also show that medium containing soluble uPAR (suPAR), and cleaved soluble uPAR (suPAR (II-III)), induced migration in OSCC cells with low endogenous levels of uPAR.ConclusionsThese results show that soluble factors in the tumour microenvironment, such as TGF-β1, PAI-1 and uPA, can influence the ratio of full length and uPAR (II-III) and thereby potentially effect cell migration and invasion. Resolving how uPAR cleavage is controlled is therefore vital for understanding how OSCC progresses and potentially provides new targets for therapy.