The sugar-chain heterogeneity of human gamma-glutamyl transferases from the reproductive system and kidney

Analysis of site-specific glycosylation of renal and hepatic γ-glutamyl transpeptidase from normal human tissue

The cell surface glycoprotein γ-glutamyl transpeptidase (GGT) was isolated from healthy human kidney and liver to characterize its glycosylation in normal human tissue in vivo. GGT is expressed by a single cell type in the kidney. The spectrum of N-glycans released from kidney GGT constituted a subset of the N-glycans identified from renal membrane glycoproteins. Recent advances in mass spectrometry enabled us to identify the microheterogeneity and relative abundance of glycans on specific glycopeptides and revealed a broader spectrum of glycans than was observed among glycans enzymatically released from isolated GGT. A total of 36 glycan compositions, with 40 unique structures, were identified by site-specific glycan analysis. Up to 15 different glycans were observed at a single site, with site-specific variation in glycan composition. N-Glycans released from liver membrane glycoproteins included many glycans also identified in the kidney. However, analysis of hepatic GGT glycopeptides revealed 11 glycan compositions, with 12 unique structures, none of which were observed on kidney GGT. No variation in glycosylation was observed among multiple kidney and liver donors. Two glycosylation sites on renal GGT were modified exclusively by neutral glycans. In silico modeling of GGT predicts that these two glycans are located in clefts on the surface of the protein facing the cell membrane, and their synthesis may be subject to steric constraints. This is the first analysis at the level of individual glycopeptides of a human glycoprotein produced by two different tissues in vivo and provides novel insights into tissue-specific and site-specific glycosylation in normal human tissues.

Serial lectin affinity chromatography demonstrates altered asparagine-linked sugar-chain structures of prostate-specific antigen in human prostate carcinoma

Differences between prostate carcinoma (PCA) and benign prostatic hyperplasia (BPH) in asparagine (N)-linked sugar-chain structures of prostate-specific antigen (PSA) were investigated using serial lectin affinity chromatography. The amounts of PSA passing through columns of concanavalin A (Con A), phytohaemagglutinin E4 (PHA-E4) and PHA-L4 were significantly greater for PCA-derived PSA than BPH. We propose that the sugar moiety structure of PSA which is increased in PCA is a multiantennary complex type with branched N-acetylglucosamine beta(1->4) mannose. We suggest that N-linked sugar chains in PSA are altered during oncogenesis in the human prostate and may serve as diagnostic tools for PCA.

A precursor form of human kidney gamma-glutamyl transferase in normal and cancerous tissues, and its possible post-translational modification

We have found three molecular forms of human gamma-glutamyl transferase (GGT) in normal and renal cell carcinomatous tissues, and also have reported the marked differences in the sugar chains of GGTs between normal and cancerous tissues by serial lectin affinity chromatographies. In this study, the peptide maps of three purified GGTs (79 kDa, 50 kDa and 25 kDa) obtained by lysylendopeptidase digestion, the subcellular localization of GGTs, and the sugar chains of GGTs were compared between normal and cancerous tissues. According to the results, the total peptide bands of the digested 79 kDa component represented the sum of those of the digested 50 and 25 kDa components on 12.5% SDS-PAGE. In addition, C-terminal and N-terminal amino-acid sequences of the 79 kDa protein were the same as the sequences of light and heavy subunits, respectively, suggesting that the 79 kDa component is of the precursor form of the 50 kDa mature heavy and 25 kDa light subunits, respectively. On the other hand, the GGT activity in renal cell carcinomatous tissues was significantly increased in the microsomal fraction and decreased in the soluble fraction compared with that of normal tissues. Meanwhile, the sugar moiety of GGTs in the respective subcellular fractions was obviously different between normal and cancerous tissues. In particular, a reduced multiantennary complex type sugar chain and an elevated high-mannose or hybrid-type sugar chain in the microsomal fraction were observed in the GGT in cancerous tissues.

Serial lectin affinity chromatography demonstrates altered asparagine-linked sugar chain structures of gamma-glutamyltransferase in human renal cell carcinoma

Differences between human renal cortex and human renal cell carcinoma (RCC) in asparagine (Asn)-linked sugar chain structures of gamma-glutamyltransferase (GGT) were investigated by using a serial lectin affinity chromatographic technique. The relative amounts of GGT which passed through the concanavalin A (Con A) column but bound to the phytohaemagglutinin E column, were significantly decreased in RCC, but there were significant increases in the relative amounts of GGT which bound weakly to the Con A column and passed through the pea lectin (PSA) column, and bound strongly to the Con A column and bound to the wheat germ agglutinin column in RCC compared with those of the normal renal cortex. A significant correlation was observed in RCC between nuclear grade and relative amount of GGT which bound weakly to the Con A column and passed through the PSA column. The findings indicate that Asn-linked sugar chain structures are altered in RCC and suggest that studies of qualitative differences of sugar chain structures of GGT might lead to a useful diagnostic tool for human RCC.

Glycosylation of gamma-glutamyltransferase is modified by ethanol in H5-6 hepatoma cell line

The H5-6 cultured rat hepatoma cell line was used to investigate the post-translational maturation of gamma-glutamyltransferase (GGT) and the effects of acute ethanol administration on the expression and glycosylation of this membrane-bound glycoprotein. We found that the two subunits of H5-6 GGT with molecular masses of 55 and 33 kDa were derived from a single glycosylated precursor of 80 kDa. In addition, signals of high molecular mass (more than 90 kDa) were detected. In vitro deglycosylation experiments indicated that N-linked sugars represented about 25% of the molecular weight of the H5-6 enzyme. By use of serial lectin affinity technique, we showed that N-linked sugar chains were mainly of the biantennary complex and hybrid-type, without fucose linkage to the innermost N-acetyl-glucosamine. Ethanol treatment did not seem to affect the expression of GGT and the sialic acid content of the enzyme, but altered its oligosaccharide chain composition both quantitatively and qualitatively.

The level of gamma-glutamyltransferase in serum, effect of carbohydrate heterogeneity on clearance rate

The measurement of serum gamma-glutamyltransferase (GT) is a frequently used parameter of liver diseases. The serum enzyme originates from liver and is cleared from the circulation by the galactose receptor in liver. The rate of uptake will thus vary with the amount of terminal galactose residues on the enzymes' carbohydrate moiety. Using an experimental rat model we have studied the relative clearance rates of variant forms of GT with different carbohydrate composition. GT purified from pancreas and kidney contains less sialic acid and showed considerably higher clearance rates than the enzyme from liver. The rapid uptake of the kidney and pancreas enzymes indicates that these enzymes may not reach detectable levels if released from these organs to the circulation. On the other hand, GT in serum of alcoholics contains increased amount of sialic acid and this enzyme variant showed a slightly decreased clearance rate compared to the normal liver enzyme. Increased sialylation of GT may thus contribute to the increased level of the enzyme in serum after alcohol abuse.

Characterization of the carbohydrate moiety of human gamma-glutamyltransferases using lectin-blotting and glycosidase treatment

The presence of both N- and O-linked carbohydrate was demonstrated on gamma-glutamyltransferase (GT) from human liver and kidney. The N-linked carbohydrate constituted 25-30% of the total molecular mass of the enzymes. O-Glycosylation was detected on both subunits of the liver enzyme, but only on the small subunit of the kidney enzyme. Lectin blot analysis indicated that the glycan chains were of the complex type for both the liver and the kidney GT and lectin blotting may to some extent distinguish the two enzymes.

Differences in the enzymatic nature and the sugar-chain structure of gamma-glutamyl transferase between normal and carcinomatous human kidney and prostate

The enzymatic and immunological nature, and the sugar chain structure, of gamma-glutamyl transferase (GGT) purified from tissues of benign prostatic hypertrophy (BPH), prostatic carcinoma (PCa) and renal cell carcinoma (RCa), were compared with those of the normal prostate (NP) and kidney (NK). The specific activities of GGTs in NP, NK, BPH, PCa and RCa were 78.9, 22.5, 105, 92.5 and 52.5 mU/mg protein, respectively. The molecular masses of GGTs from BPH, PCa and RCa were 72 kDa, 78 and 108 kDa, and 79 and 105 kDa, respectively. The Michaelis constants (Km), optimum pHs and the inhibition of GGT activities by several chemical compounds, revealed that the GGT from BPH, PCa and RCa was similar to that of normal GGT. Immunologically, the IgG fraction against anti-human seminal plasma GGT fused to the all of the GGTs tested. The sugar chain heterogeneities of the various GGTs, detected by the serial-lectin affinity technique, differed from one another. The sugar chain of GGT from BPH resembled the sugar chain from NP. On the contrary, the sugar chains of GGTs from PCa and RCa were markedly different from those from normal tissues. In the GGT from PCa, multi-antennary complex type sugar chains were more increased than the enzyme of NP. In general, as previously reported, the sugar chains of GGTs from carcinomatous tissues of prostate and kidney had an increased content of bisecting GlcNAc (beta 1-->4) containing complex type sugar chains. Moreover, the reductions of the biantennary complex type sugar chain with fucose linkage and the hybrid type sugar chain were obvious in the GGT from carcinomatous tissues of the prostate and kidney.

Purification and properties of gamma-glutamyl transpeptidase from the tissue of human benign prostatic hypertrophy

The enzyme of gamma-glutamyl transpeptidase was purified to homogeneity from the tissue of human benign prostatic hypertrophy and its enzyme properties were studied. The enzyme activity was detected mainly in the luminal border of the epithelium lining ducts by histochemical staining. The enzyme was purified 759-fold that of the crude extract. The specific activity of the purified enzyme was 79,900 mU/mg protein. The following enzyme properties were obtained: Michaelis constant of the enzyme was 0.83 mmol/l. The molecular weight was 72 kDa, consisting of two subunits, 45 kDa and 27 kDa. The isoelectric point of the enzyme was 8.5. The optimum pH ranged from 8.2 to 8.5. By Concanavalin A-sepharose affinity chromatography, more than 60% of the enzyme activity was eluted in the weakly bound fraction, suggesting biantennary complex sugar chain was the major type among the asparagine-linked sugar-chains of the enzyme.

Purification and immunological characterization of a new form of gamma-glutamyltransferase of human semen

A new form of gamma-glutamyltransferase was purified from human seminal plasma. The purified enzyme was composed of two non-identical subunits with apparent molecular masses of 150 and 95 kDa on polyacrylamide gel electrophoresis (PAGE) in the presence of sodium dodecyl sulfate (SDS), and showed a molecular mass of 500 and 250 kDa on gel filtration in the absence and presence of 1% Triton X-100, respectively. This enzyme was different from human renal gamma-glutamyltransferase not only in apparent molecular masses, but also in amino acid compositions of both the subunits to each other. Experiments with the antisera raised against the purified enzyme revealed that the enzyme was different from the renal, hepatic and testicular enzymes in reactivity to the antibody though partially related to those enzymes. Ouchterlony double diffusion analysis indicated that both human seminal plasma and prostatic extract contained two types of gamma-glutamyltransferase, one is that we purified and the other the renal type. Hence, it is most likely that gamma-glutamyltransferase accounting for most of the enzyme activity in semen results from prostata followed by secretion to seminal plasma.

Gamma-glutamyltransferase from human hepatoma cell lines: purification and cell culture of HepG2 on microcarriers

After screening different human hepatoma cell lines, we observed that both HepG2 and PLC/PRF/5 naturally produced large amounts of gamma-glutamyltransferase. We optimized HepG2 cell culture conditions and observed that higher cell densities were obtained when cells were cultured on microcarriers, particularly when Cytodex 3 was used and that cell growth was optimal when DMEM, the basic medium, was supplemented with 5% fetal calf serum and 6 mmol/l glutamine. These culture conditions allowed us to produce the highest amounts of GGT after about 150 h of culture. The GGT obtained from HepG2 cells was partially purified and some of its physico-chemical properties characterized. Successive Con A gel chromatography separated the activity into two peaks, suggesting that GGT from HepG2 is not uniformly glycosylated. Papain-treated HepG2 GGT showed a Mr of about 120 kDa and migrated as a single-chain protein in SDS-PAGE. Immunological and kinetic properties of the GGT were similar to other human GGTs (liver, kidney and serum). It appears that HepG2 GGT could be a source for the preparation of a human enzyme reference material.