Putrescine as a regulator of ε-(γ-glutamyl) lysine isopeptide production and the proliferative state

Transglutaminase-catalyzed isopeptide bond formation in human cell homogenates was inhibited by putrescine. Limitation of putrescine biosynthesis in proliferating cells by 1, 3-diaminopropanol resulted in growth inhibition and increased cellular isopeptide content. A correlation of isopeptide content, polyamine levels, and the proliferative state was found.     

Hydrolysis ofγ-glutamyl linkages byFusobacterium nucleatum

The cell extracts of two human oral strains (FN2 and FN3) ofFusobacterium nucleatum displayed exceptionally high-glutamylpeptidase activity as determined withN--l-glutamyl-2-naphthylamine as substrate. This activity was so dominant that the hydrolysis of otherN-aminoacyl-2-naphthylamines progressed at a rate <10% of the former. Two major enzymes (I and II) were partially purified from FN2. I had a molecular weight of 115,000 and did not hydrolyze-glutamylcysteinylglycine (glutathione). II had a molecular weight of 70,000 and rapidly liberated only glutamic acid from glutathione. Strain FN3 contained several enzymes hydrolyzing-glu-2NA. Direct anion exchange chromatography of FN3 cell extracts separated one enzyme that liberated both glutamic acid and glycine from glutathione, one that was inactive against glutathione (but hydrolyzed-glu-2NA), and one that liberated only glutamic acid. Although-glu-2NA was a good synthetic substrate, glutathione was hydrolyzed at least 500 times faster by an enzyme present in both strains. These results indicate that the presence of-glutamylpeptidase activity is very characteristic of theseF. nucleatum strains.     

ε-(γ-Glutamyl)lysine Cross-link in the Terminal Differentiation of Mammalian Epidermis

Purified horny cell membrane of the epidermis of newborn rat was prepared by discontinuous sucrose density gradient ultracentrifugation after 0.1 n sodium hydroxide treatment. ε-(γ-Glutamyl)-lysine cross-link was identified mainly in the horny cell membranes of the epidermis of newborn rat, cow snout, and human stratum corneum. When, [¹⁴C]-lysine was incubated with minced epidermis of newborn rat, [¹⁴C]-lysine labeled ε-(γ-glutamyl)lysine cross-link was identified in purified horny cell membrane. Results indicate that the protein newly synthesized in the granular layer might play a role in the formation of thickened cell membrane in the late stage of the epidermal differentiation.     

Biodistribution and catabolism of 18F-labelled isopeptide Nɛ-(γ-glutamyl)-L-lysine

Summary. Isopeptide bonds between the ɛ-amino group of lysine and the γ-carboxamide group of glutamine are formed during strong heating of pure proteins or, more important, by enzymatic reaction mediated by transglutaminases. Despite the wide use of a microbial transglutaminase in food biotechnology, up to now little is known about the metabolic fate of the isopeptide N^ɛ-(γ-glutamyl)-L-lysine. In the present study, N-succinimidyl-4-[¹⁸F]fluorobenzoate was used to modify N^ɛ-(γ-glutamyl)-L-lysine at each of its two α-amino groups, resulting in the 4-[¹⁸F]fluorobenzoylated derivatives, for which biodistribution, catabolism, and elimination were investigated in male Wistar rats. A significant different biochemical behavior of the two labelled isopeptides was observed in terms of in vitro stability, in vivo metabolism as well as biodistribution. The results suggest that the metabolic fate of isopeptides is likely to be dependent on how they are reabsorbed – free or peptide bound.     

Detection of protein–ligand interactions by NMR using reductive methylation of lysine residues

We show that reductive methylation of proteins can be used for highly sensitive NMR identification of conformational changes induced by metal- and small molecule binding, as well as protein-protein interactions. Reductive methylation of proteins introduces two (13)C-methyl groups on each lysine in the protein of interest. This method works well even when the lysines are not actively involved in the interaction, due to changes in the microenvironments of lysine residues. Most lysine residues are located on the protein exterior, and the exposed (13)C-methyl groups may exhibit rapid localized motions. These motions could be faster than the tumbling rate of the molecule as a whole. Thus, this technique has great potential in the study of large molecular weight systems which are currently beyond the scope of conventional NMR methods.     

Effects of enhanced lysine ε-aminotransferase activity on cephamycin biosynthesis in Streptomyces clavuligerus

A recombinant strain of S. clavuligerus (LHM100) that contains an additional copy of the gene (lat) encoding lysine -aminotransferase (LAT) was analyzed and compared to the wild-type for intracellular concentrations of primary metabolites involved in cephamycin C biosynthesis. This strain had been shown previously to produce higher levels of the antibiotic because of increased levels of LAT, a rate-limiting enzyme involved in the production of -amino-adipic acid. The results showed that the overall growth kinetics of the two strains were comparable, including the intracellular concentrations of cysteine, valine and lysine. In contrast, 60% higher antibiotic production was observed in LHM100, which reflected a significant temporal variation in specific metabolite production rate. The time profile of LAT activity was consistently higher in LHM100; however, -aminoadipic acid levels showed unexpected variation during the growth cycle. These results support the proposal that rate-limiting enzymes in cephamycin C biosynthesis are temporally controlled, and indicate that optimization of metabolite production will require differential overexpression of several biosynthetic genes.     

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.     

Application of the reaction of dithioesters with ε-amino groups in lysine to the chemical modification of proteins

The reaction of lysine with dithioesters was applied to horseradish peroxidase donor: hydrogen-peroxide oxidoreductase, EC 1.11.1.7) using car☐ymethyl dithiotridecanoate: three to four lysine residues were modified. The modified enzyme was soluble and active in diethyl ether. Papain (EC 3.4.22.2) was modified with car☐ymethyl dithiobenzoate: two lysine residues were modified. The modified enzyme was soluble and active in dimethylsulfoxide. From these results it is concluded that dithioesters are efficient reagents for the modification of peripheral lysine residues of proteins. Aromatic dithioesters, less reactive but more selective, should be recommended for thiol-dependent enzymes such as papain.     

The presence of N(ε)-(Carboxymethyl) lysine in the human epidermis

It is well known that advanced glycation end products (AGEs) are formed in long-lived dermal proteins such as collagen, and that their formation is related to skin aging. To examine the distribution of AGEs in skin tissue, we performed immunofluorescence studies on the human skin using an anti-AGEs antibody. Interestingly, AGEs signals were observed not only in the dermis but also in the epidermis. The objectives of this study were to confirm the presence of N(ε)-(Carboxymethyl) lysine (CML), an AGE structure, in the epidermis and to characterize the CML-modified proteins. The presence of CML in the stratum corneum (SC) was examined using liquid chromatography-electrospray ionization time-of-flight mass spectrometry. Concordance between the retention times of a compound in the SC hydrolysate and authentic CML, as well as with the specific mass transition of CML, was detected. This result showed that CML is present in the epidermis. In order to characterize the CML-modified proteins in the epidermis, protein samples extracted from the SC were analyzed using two-dimensional electrophoresis followed by an amino acid sequence analysis. The clarified peptide sequences covered approximately 27% of the amino acid sequences of cytokeratin 10 (K10). In the immunoblotting experiment following the two-dimensional electrophoresis, where protein samples extracted from whole epidermis were used, the position of the major CML-positive spots corresponded to those of K10. Taken together these results showed that CML is present in the human epidermis, and suggest that K10 is one of the target molecules for CML modification in the epidermis.     

High-performance liquid chromatographic analysis of monoamines and some of theirγ-glutamyl conjugates produced by the brain and other tissues ofHelix aspersa (gastropoda)

1. Earlier reports from this and other laboratories have indicated that wide variations exist in estimates of the concentrations of norepinephrine in the brain and heart of the snail Helix aspersa. This is a report on investigations of norepinephrine concentrations in Helix aspersa tissues using high-performance liquid chromatography with electrochemical detection. In addition, the effects of treatment with some amino acid precursors or enzyme inhibitors on the concentrations of norepinephrine, dopamine, 5-hydroxytryptamine, and some of their metabolites were investigated. 2. The levels of norepinephrine in the brain were low (46 ng/g) in comparison to dopamine (2.1) micrograms/g) and 5-hydroxytryptamine (2.6 micrograms/g). Epinephrine was not observed in either snail heart of snail nervous tissue. 3. Administration of L-3,4-dihydroxyphenylalanine resulted in elevated snail brain dopamine, while 3,4-dihydroxyphenylserine treatment increased norepinephrine. Treatment with blockers of tyrosine hydroxylase and aromatic-L-amino acid decarboxylase reduced dopamine concentrations without affecting 5-hydroxytryptamine. 4. The dopamine metabolite 3,4-dihydroxyphenylacetic acid was observed only after administration of L-3,4-dihydroxyphenylalanine or dopamine and then only in very small amounts. At no time was the dopamine metabolite homovanillic acid or the 5-hydroxytryptamine metabolite 5-hydroxyindoleacetic acid observed in brain, heart, or whole-body extracts of the snail. 5. Incubation of nervous tissue with either dopamine or 5-hydroxytryptamine resulted in the production of electrochemically active metabolites which were identified by oxidation characteristics and cochromatography with synthesized standards as the gamma-glutamyl conjugates of the amines. Treatment of snails with 5-hydroxytryptamine or dopamine also resulted in the production of gamma-glutamyl conjugates. 6. The present experiments show that great care must be exercised when measuring monoamines and their metabolites in gastropod tissues by high-performance liquid chromatography with electrochemical detection.     

Antimicrobial effect of medical adhesive composed of aldehyded dextran and ε-Poly(L-Lysine)

Infection of surgical wounds is a severe problem. Conventional tissue reattachment methods have limits of incomplete sealing and high susceptibility to infection. Medical adhesives have several advantages over traditional tissue reattachment techniques, but still have drawbacks, such as the probability of infection, low adhesive strength, and high cytotoxicity. Recently, a new medical adhesive (new-adhesive) with high adhesive strength and low cytotoxicity, composed of aldehyded dextran and ε-poly(L-lysine), was developed. The antimicrobial activity of the new-adhesive was assayed using agar media and porcine skin. In the agar diffusion method, inoculated microorganisms that contacted the new-adhesive were inactivated, but this was not dependent on the amount of new-adhesive. Similar to the agar media results, the topical antimicrobial effect of new-adhesive was confirmed using a porcine skin antimicrobial assay, and the effect was not due to physical blocking based on comparison with the group whose wounds were wrapped.     

γ-Secretase Modulators and APH1 Isoforms Modulate γ-Secretase Cleavage but Not Position of ε-Cleavage of the Amyloid Precursor Protein (APP)

The relative increase in Aβ42 peptides from familial Alzheimer disease (FAD) linked APP and PSEN mutations can be related to changes in both ε-cleavage site utilization and subsequent step-wise cleavage. Cleavage at the ε-site releases the amyloid precursor protein (APP) intracellular domain (AICD), and perturbations in the position of ε-cleavage are closely associated with changes in the profile of amyloid β-protein (Aβ) species that are produced and secreted. The mechanisms by which γ-secretase modulators (GSMs) or FAD mutations affect the various γ-secretase cleavages to alter the generation of Aβ peptides have not been fully elucidated. Recent studies suggested that GSMs do not modulate ε-cleavage of APP, but the data were derived principally from recombinant truncated epitope tagged APP substrate. Here, using full length APP from transfected cells, we investigated whether GSMs modify the ε-cleavage of APP under more native conditions. Our results confirmed the previous findings that ε-cleavage is insensitive to GSMs. In addition, fenofibrate, an inverse GSM (iGSM), did not alter the position or kinetics of ε-cleavage position in vitro. APH1A and APH1B, a subunit of the γ-secretase complex, also modulated Aβ42/Aβ40 ratio without any alterations in ε-cleavage, a result in contrast to what has been observed with PS1 and APP FAD mutations. Consequently, GSMs and APH1 appear to modulate γ-secretase activity and Aβ42 generation by altering processivity but not ε-cleavage site utilization.     

Studies on the putative role ofγ-glutamyl transpeptidase in intestinal transport of amino acids in Atlantic salmon

Summary The -glutamyl cycle is considered to function in the membrane transport of amino acids, particularly glutamine and cysteine. When groups of Atlantic salmon were fed either a control diet containing 45% crude protein or an amino acid diet (of similar overall amino acid composition but containing elevated levels of glutamine and cysteine) for 16 weeks, weight gains were significantly greater in the former group than in those given the amino acid diet. There were no significant differences between treatments in -glutamyl transpeptidase (GT) activity in the proximal intestine; in distal intestine there was significantly more activity in control fish. Mean levels of GSH were higher in tissues (pyloric caeca, distal intestine and kidney) of amino acid diet fish than in those of control fish. Glutamine was less effective as a -glutamyl acceptor than several other amino acids when tested with salmon caecal GT. There were no morphological adaptations to the two feeds. Nutrient uptake studies showed an increased uptake of glutamine, but decreased uptakes of proline and methionine in proximal intestine of salmon fed amino acid diet. Much the greater part of the glutamine uptake, even at high concentrations was shown to be by Na⁺ dependent processes. There is no evidence that GT itself is Na⁺ dependent. The results do not support the view that the -glutamyl cycle and GT in particular are involved in the transport of amino acids in the intestine and are discussed in this context.Abbreviations GT -glutamayl transpeptidase - GSH reduced glutathione     

Immobilization of lysine oxidase on a gold–platinum nanoparticles modified Au electrode for detection of lysine

A commercial lysine oxidase (LyOx) from Trichoderma viride was immobilized covalently onto gold nanoparticles (AuNPs) and platinum nanoparticles (PtNPs) electrodeposited onto Au electrode using 3-aminopropyltriethoxy silane (3-APTES) and glutaraldehyde cross linking chemistry. A lysine biosensor was fabricated using LyOx/3-APTES/AuNPs-PtNPs/Au electrode as a working electrode, Ag/AgCl (3 M KCl) as standard electrode and Pt wire as auxiliary electrode connected through a potentiostat. The enzyme electrode was characterized by scanning electron microscopy (SEM), Fourier transform infrared (FTIR) spectroscopy, electrochemical impedance spectroscopy (EIS) and cyclic voltammetry (CV). The cumulative effect of AuNPs and PtNPs showed excellent electrocatalytic activity at low applied potential for detection of H₂O₂, a product of LyOx reaction. The sensor showed its optimum response within 4 s, when polarized at 0.2 V vs. Ag/AgCl in 0.1 M phosphate buffer, pH 7.5 at 30 °C. The linear range and detection limit of the sensor were 1.0–600 μM and 1.0 μM (S/N = 3), respectively. Biosensor measured lysine level in sera, milk and amino acid tablet, which correlated well with those by standard HPLC method. The enzyme electrode lost 50% of its initial activity after 200 uses over a period of 4 months.     

Detection of poly(ADP-ribose) synthesis in Drosophila testes upon γ-irradiation

Poly(ADP-ribose) polymerase (PARP) activity is widespread among eukaryotes. Upon DNA damage PARP binds to DNA strand breaks and transfers ADP-ribose residues from NAD⁺ to acceptor proteins and to ADP-ribosyl protein adducts. This leads to branched polymers of protein-coupled poly(ADP-ribose) (pADPr). Because the germline of Drosophila has recently become important in the study of DNA double-strand break repair (DSBR) as opposed to somatic DSBR we tested whether the catalytic activity of PARP can be stimulated by γ-irradiation during Drosophila spermatogenesis. Using antibodies against pADPr we detected a significant increase in PARP activity in male germline cells during spermatogenesis upon γ-irradiation. Different stages of spermatogenesis revealed different subnuclear localization patterns of pADPr. In premeiotic and postmeiotic cells pADPr localized in a pattern overlapping with lamin and topoisomerase II at the nuclear rim. In primary spermatocytes pADPr is associated with three loci corresponding to the chromosomes at the nuclear periphery. Received: 12 October 1998; in revised form: 21 December 1998 / Accepted: 23 December 1998     

Convulsions and inhibition of glutamate decarboxylase by pyridoxal phosphate-γ-glutamyl hydrazone in the developing rat

We have previously shown that in the adult rat the inhibition of brain glutamate decarboxylase (GAD) activity by pyridoxal phosphate--glutamyl hydrazone (PLPGH) administration does not result in convulsions, whereas in the adult mouse intense convulsions invariably occur. In the present study we report that, surprisingly, immature rats from 2 to 20 days of age treated with PLPGH (80 mg/kg) showed generalized tonic-clonic convulsions, whereas no convulsions at all were present in 30 days-old or older rats. GAD activity, measured by enzymic determination of GABA formed in forebrain homogenates, was inhibited by about 60% at the time of convulsions in 15 days-old and younger rats, whereas the inhibition was between 40 and 50% in older animals. The addition of the coenzyme pyridoxal 5-phosphate to the incubation medium completely reversed this inhibition. In all treated animals GABA levels were lower compared to controls. The results indicate that the susceptibility of GAD in vivo to a diminished cofactor concentration decreases with age. It seems possible that changes in the expression of enzyme forms are reflected in developmental variations in the susceptibility to seizures induced by vitamin B₆ depletion, but alterations of other B₆-dependent biochemical pathways cannot be discarded.     

An autoantibody against N(ε)-(carboxyethyl)lysine (CEL): possible involvement in the removal of CEL-modified proteins by macrophages

Advanced glycation end products (AGEs) are believed to play a significant role in the development of diabetic complications. In this study, we measured the levels of autoantibodies against several AGE structures in healthy human plasma and investigated the physiological role of the autoantibodies. A high titer of the autoantibody against N(ε)-(carboxyethyl)lysine (CEL) was detected in human plasma compared with other AGE structures such as CML and pentosidine. The purified human anti-CEL autoantibody reacted with CEL-modified human serum albumin (CEL-HSA), but not CML-HSA. A rabbit polyclonal anti-CEL antibody, used as a model autoantibody against CEL, accelerated the uptake of CEL-HSA by macrophages, but did not enhance the uptake of native HSA. Furthermore, when (125)I-labeled CEL-HSA was injected into the tail vein of mice, accumulation of (125)I-CEL-HSA in the liver was accelerated by co-injection of the rabbit anti-CEL antibody. These results demonstrate that the autoantibody against CEL in plasma may play a role in the macrophage uptake of CEL-modified proteins.