A role for polyamines in stimulus-secretion coupling in the pancreatic β-cell

Measurement of the content of polyamines in pancreatic islets indicated that no significant change in their concentration took place during glucose-stimulated insulin release. The finding, together with the absence of any effect of -difluoromethylornithine on glucosestimulated insulin release suggested that rapid synthesis of polyamines is not involved in stimulus-secretion coupling in the -cell. The concentration of polyamines found in islets were high enough for them to act as substrates for the Ca²⁺-dependent islet transglutaminase during insulin release. This was further demonstrated by the ability of islet transglutaminase to incorporate [¹⁴C]putrescine into proteins from islet homogenates and by the demonstration of an increase in the covalent incorporation of [¹⁴C]putrescine into the proteins of intact islets following their challenge with glucose. Unlike monoamine substrates of transglutaminase, putrescine failed to effectively inhibit insulin release when its intracellular concentration was increased. A role for polyamines in the secretory process through their incorporation into islet proteins is suggested.     

Factors affecting transglutaminase activity catalysing polyamine conjugation to endogenous substrates in the entire chloroplast

The chemical, physical and biological factors, which can affect the activity of transglutaminase (R-glutaminyl-peptide:amine γ-glutamyl-transferase, EC 2.3.2.13) in chloroplasts (ChlTGase) when photosynthesis is active, were assayed in chloroplasts isolated from the leaves of Helianthus tuberosus. Chloroplasts were incubated with putrescine (PU) in the presence of light to monitor the transglutaminase-catalysed incorporation of this polyamine into endogenous proteins. The enzyme was identified using a monoclonal antibody raised against the active site sequence of TGase K and was found to contain a thiol group, which can be slightly activated by Ca²⁺ and severely inhibited by EGTA. Mg²⁺ had a slight inhibitory effect. The enzymic activity, monitored by the isolation of glutamyl-putrescine, while already detectable above pH 7 was found to increase sharply from pH 8.0 to 9.5, with an optimal temperature of 45 °C. A hyperbolic curve was observed when the activity was measured as a function of the putrescine concentration, the apparent K_m being 1 mM. A biphasic relationship was obtained between the TGase activity and the concentration of the substrate (endogenous proteins) as well as the time of assay. The reaction products of the TGase assay, carried out at three pH values, were analysed for the presence of γ-glutamyl-putrescine; mono- and bis-derivatives were detected, showing that most of the modifications of Chl proteins are catalysed by the enzyme. Due to the stimulatory effect that proteases have on some animal TGases, protease inhibitors were also tested and found to reduce the post-translational modification of the substrates.     

Identification of the Large Subunit of Ribulose 1,5-Bisphosphate Carboxylase/Oxygenase as a Substrate for Transglutaminase in Medicago sativa L. (Alfalfa)

Extracts prepared from floral meristematic tissue of alfalfa (Medicago sativa L.) were investigated for expression of the enzyme transglutaminase in order to identify the major protein substrate for transglutaminase-directed modifications among plant proteins. The large polymorphic subunits of ribulose 1,5-bisphosphate carboxylase/oxygenase in alfalfa, with molecular weights of 52,700 and 57,600, are major substrates for transglutaminase in these extracts. This was established by: (a) covalent conjugation of monodansylcadaverine to the large subunit followed by fluorescent detection in SDS-polyacrylamide gels; (b) covalent conjugation of [¹⁴C]putrescine to the large subunit with detection by autoradiography; (c) covalent conjugation of monodansylcadaverine to the large subunit and demonstration of immunocross-reactivity on nitrocellulose transblot of the modified large subunit with antibody prepared in rabbits against dansylated-ovalbumin; (d) demonstration of a direct dependence of the rate of transglutaminase-mediated, [¹⁴C]putrescine incorporation upon the concentration of ribulose, 1,5-bisphosphate carboxylase/oxygenase from alfalfa or spinach; and (e) presumptive evidence from size exclusion chromatography that transglutaminase may cofractionate with native molecules of ribulose 1,5-bisphosphate carboxylase/oxygenase in crude extracts. Analysis of the primary structure of plant large subunit has revealed numerous potential glutaminyl and lysyl sites for transglutaminase-directed modifications of ribulose 1,5-bisphosphate carboxylase/oxygenase.     

Identification of chlorophyll-a/b proteins as substrates of transglutaminase activity in isolated chloroplasts of Helianthus tuberosus L.

Endogenous substrates of transglutaminase (TGase; EC 2.3.2.13) have been identified in choloroplasts of Helianthus tuberosus leaves. The activity of TGase is Ca²⁺- and light-stimulated and catalyzes the incorporation of polyamines into thylakoid and stromal proteins. These proteins were separated by two-dimensional gel electrophoresis (first dimension: Deriphat-PAGE; second dimension: SDS-urea-PAGE) and Western-blotted. The thylakoid proteins were recognized by polyclonal antibodies as apoproteins of the chlorophyll-a/b antenna complex (LHCII, CP24, CP26 and CP29); a stromal protein was recognized by antibodies as the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase. A possible localization of the acyl donor site for CP26 is proposed. A comparative analysis of polyamine incorporation into trichloroacetic-acid-precipitable material indicated that spermidine was a preferential acyl-acceptor substrate with respect to putrescine, even though the above-reported substrates are the same. The nature of the substrates, together with the light stimulation, support the working hypothesis of a possible role of TGase in regulating the light-harvesting function.Abbreviations CP chlorophyll protein - LHC light-harvesting complex - M_r relative molecular mass - PA polyamine - PU putrescine - Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase - SD spermidine - TCA trichloroacetic acid - TGase transglutaminase We acknowledge the financial support provided by CNR contribution No. 91.00539.CTO 4 to D. Serafini-Fracassini and MAF grant No. 4.7240.90 to R. Bassi. We thank Prof. C. Bergamini (Istituto di Biochimica, Università di Ferrara, Ferrara, Italy) for the kind gift of antibodies against human erythrocyte TGase.     

Human mononuclear leukocyte transglutaminase activity is enhanced by streptococcal erythrogenic toxin and a staphylococcal mitogenic factor associated with toxic shock syndrome

Transglutaminase activity in human peripheral lymphocytes is enhanced after incubation of the cells with concanavalin A. Streptococcal proliferative factor toxin (erythrogenic toxin) from Streptococcus pyogenes and Toxic shock syndrome toxin from Staphylococcus aureus were purified and tested for their ability to enhance transglutaminase activity. Mononuclear leukocyte transglutaminase activity was enhanced 3–5-fold 30 min after incubation with either toxin. Enhancement occurred only when toxin was incubated with intact cells; addition of toxin to cell lysates was without effect. Transglutaminase was not measurable extracellularly. Histamine and dansyl cadaverine, competitive substrates for transglutaminase, inhibited [³H]putrescine incoporation into casein and [³H]thymidine incorporation into DNA. Incubation of lymphocytes with cycloheximide and either toxin or concanavalin A did not inhibit enzyme activity. These bacterial toxins, like phytomitogens, may perturb the cellular membrane and mediate their effect by transglutaminase-mediated cross-linking of membrane proteins.     

Transglutaminase reactions associated with the rat semen clotting system: modulation by macromolecular polyanions.

The coagulation of rodent semen after ejaculation involves the establishment of ?-(γ-glutamyl)lysyl cross linkages between seminal vesicle secretion proteins as catalyzed by Ca⁺⁺-dependent transglutaminases secreted by the coagulating (anterior prostate) gland. During enzymic clotting of rat vesicular secretion proteins, low molecular weight amines such as putrescine are incorporated into covalent linkage with proteins of both the coagulum and the clot liquor. Bulbourethral gland secretions and certain macromolecular polyanions (notably poly-L-glutamate) enhance the enzymic coagulation of rat vesicular secretion proteins and putrescine incorporation therein. The stimulatory macromolecular polyanions appear to exert their effects by facilitating the ability of vesicular secretion proteins to serve as transglutaminase amine acceptor substrates.     

Enhanced susceptibility to transglutaminase reaction of α-lactalbumin in the molten globule state

The susceptibility of a-lactalbumin to transglutaminase reactions was studied using an enzyme from Streptoverticillium which can catalyze the reactions irrespective of the presence or absence of Ca²⁺. Transglutaminase-catalyzed polymerization of a-lactalbumin in the native state occurred to a very limited extent. Transformation from the native state to the molten globule state brought about by Ca²⁺-removal from holo-a-lactalbumin enhanced the polymerization of the protein catalyzed by transglutaminase. The incorporation of Carbobenzoxy-Gln-Gly into a-lactalbumin through the enzyme reaction was investigated to determine the amounts of lysine residues which are present at molecular surface and available to the enzyme. There was no significant difference in the amount of available lysine residues between the native: and the molten globule molecule. However, the amount of surface glutamine residues incorporated with monodansylcadaverine by transglutaminase was remarkably higher in the molten globule state than that in the native state. The monodansylcadaverine-incorporated site of a-lactalbumin in the molten globule state was identified as Gln-54 by amino-acid sequence analysis of fluorescence-labeled peptides separated from chymotryptic digests of the protein. Possible reason for selective labeling of Gln-54 in molten globule a-lactalbumin was proposed.     

Transglutaminase-catalyzed incorporation of [2,5-3H]histamine into a Mr 84000 particulate protein in pancreatic islets

Rat pancreatic islet homogenates catalyze the incorporation of [2,5^–3-H]histamine into endogenous proteins recovered in both the stacking gel and a Mr 84000 protein separated by polyacrylamide electrophoresis. The labelling of these proteins represents a Ca²⁺-dependent process inhibited by glycine methylester, but not sarcosine methylester, and enhanced after preincubation of the islets at a high concentration of D-glucose. Although transglutaminase activity is found in both soluble and particlate subcelluler fractions, the endogenous transglutaminase substrates were located mainly in paarticulate, possibly membrane-associated, material.     

First evidence for polyamine conjugation mediated by an enzymic activity in plants

An enzyme activity, found for the first time in plants, mainly located in the 22,000g supernatant of the crude extract of sprout apices of Helianthus tuberosus L. cv OB1 tubers, is able in vitro to covalently bind polyamines to endogenous substrates of different molecular weights. The major assay parameters, such as pH, dithiothreitol, and extract concentrations were optimized. The time course of the reaction, the dependence on putrescine concentration, its competition with histamine, the capacity to bind spermidine and spermine better than putrescine, the stability of the reaction product and analysis of the latter by sodium dodecyl sulfate polyacrylamide gel electrophoresis and thin-layer chromatography suggest that putrescine is linked to endogenous substrates by means of an enzyme reaction that shows some similarities with transglutaminase activities detected in animals. However, the activities of the crude extract and of a fraction eluted from a Sephadex G25 column were not affected by CaCl₂ concentrations lower or equal to 5 millimolar; 4 or 10 millimolar EGTA caused a very small reduction; higher concentrations of CaCl₂ and 15 millimolar or more of EDTA were inhibitory. N,N′-dimethylcasein was not recognized as a substrate. These data indicate that this activity also displays some characteristics which are different from those of animal transglutaminases.     

Effect of inorganic cations and metabolic inhibitors on putrescine transport in roots of intact maize seedlings

The specificity and regulation of putrescine transport was investigated in roots of intact maize (Zea mays L.) seedlings. In concentration-dependent transport studies, the kinetics for putrescine uptake could be resolved into a single saturable component that was noncompetitively inhibited by increasing concentrations of Ca²⁺ (50 micromolar to 5 millimolar). Similarly, other polyvalent cations, including Mg²⁺ (1.8 millimolar) and La³⁺ (200 micromolar), almost completely abolished the saturable component for putrescine uptake. This suggests that putrescine does not share a common transport system with other divalent or polyvalent inorganic cations. Further characterization of the putrescine transport system indicated that 0.3 millimolar N-ethyl-maleimide had no effect on putrescine uptake, and 2 millimolar p-chloromercuribenzene sulfonic acid only partially inhibited transport of the diamine (39% inhibition). Metabolic inhibitors, including carbonylcyanide-m-chlorphenylhydrazone (20 micromolar) and KCN (0.5 millimolar), also partially inhibited the saturable component for putrescine uptake (V_max reduced 48-60%). Increasing the time of exposure to carbonylcyanide-m-chlorphenylhydrazone from 30 minutes to 2 hours did not significantly increase the inhibition of putrescine uptake. Electrophysiological evidence indicates that the inhibitory effect on putrescine uptake by these inhibitors is correlated to a depolarization of the membrane potential, suggesting that the driving force for putrescine uptake is the transmembrane electrical potential across the plasmalemma.     

Consequences of terbium (111) binding on the conformation and enzymatic activity of Guinea pig liver transglutaminase

Calcium ions are crucial for expression of transglutaminase activity. Although lanthanides have been reported to substitute for calcium in a variety of protein functions, they did not replace the calcium requirement during transglutaminase activity measurements. Furthermore, lanthanides strongly inhibited purified liver transglutaminase activity using either casein or fibrinogen as substrates. Terbium (III) inhibition of transglutaminase-catalyzed putrescine incorporation into casein was not reversed by the presence of 10–200 fold molar excess of calcium ions (Ki for Tb(III)=60 µM). Conformational changes in purified liver transglutaminase upon Tb(III) binding were evident from a biphasic effect of Tb(III) on transglutaminase binding to fibrin. Low concentrations of Tb(III) (1 µM to 10 µM inhibited the binding of transglutaminase to fibrin, whereas higher concentrations (20 µM to 100 µM promoted binding. Conformational changes in purified liver transglutaminase consequent to Tb(III) binding were also demonstrated by fluorescence spectroscopy due to Forster energy transfer. Fluorescence emission was stable to the presence of 200 mM NaCl and 100 mM CaCl₂ only partially quenched emission. Purified liver transglutaminase strongly bound to Tb(III)-Chelating Sepharose beads and binding could not be disrupted by 100 mM CaCl₂ solution. Our data suggest that Tb(III)-induced conformational changes in transglutaminase are responsible for the observed effects on enzyme structure and function. The potential applications of Tb(III)-transglutaminase interactions in elucidating the structure-function relationships of liver transglutaminase are discussed.     

Human epidermal transglutaminase: stimulation by trypsin, organic solvents, and chaotropic salts.

The activity of pure human epidermal transglutaminase was enhanced 3- to 10-fold by various treatments. Incubation with trypsin caused a time-dependent enhancement in activity, up to 3 times the initial activity, with no apparent change in electrophoretic mobility as detected by disc and sodium dodecyl sulfate electrophoresis, and with no apparent change in immunological properties. This enhancement was specific for trypsin among the several enzymes tested. Preincubation of transglutaminase with 0.1 to 2.0 m potassium thiocyanate or potassium iodide, and with 10 to 50% solutions of alcohols and other organic solvents caused a time-dependent enhancement of activity up to 10-fold over control. The presence of calcium was required for the observed enhancement. Kinetic studies suggest that the K_m values of the substrates putrescine and casein determined for the native enzyme are similar to those for the stimulated forms of the enzyme. These in vitro methods of altering enzyme activity may be indications of potential in vivo controls of transglutaminase activity.     

Magnesium replacement by polyamines in higher plant cell-free polyphenylalanine synthesis

The characteristics and specific requirements for the formation of polyphenylalanine from Phe-[¹⁴C] in a barley ribosome cell-free incorporation system were detailed. The polyamines spermine, spermidine and putrescine, and the inorganic cations Ca²⁺, Ba²⁺ and Mn²⁺ demonstrated different capabilities for replacing the Mg²⁺ requirement in the incorporation system. Spermine was extremely efficient in this respect, followed by spermidine; all of the cations tested showed discrete concentration ranges of effectiveness. The data supported the suggestion that, at least to a certain extent, the cation requirement for protein syntheis may be non-specific.     

Enhancement of UDP-galactose:mucin galactosyltransferase activity by spermine

A microsomal preparation prepared from the mucosal lining of canine trachea catalyzed the transfer of galactose from its uridine diphosphate derivative to sialidase-treated ovine submaxillary mucin. Maximal incorporation occurred at 30 mm mn²⁺. When the concentration of mn²⁺ in the reaction mixture was reduced to 2.5 mm, approximately two-thirds of the enzymatic activity was lost, but full activity could be restored by the addition of 1 mm spermine. Under these conditions spermine did not affect the K_m for UDP-galactose, but lowered the K_m for sialidase-treated ovine submaxillary mucin and Mn²⁺ by a factor of 10. The effect of spermine was abolished with increasing concentrations of Mn²⁺, and in the absence of the metal, enzymatic activity was lost and could not be restored by the addition of spermine. Spermidine also stimulated activity at low levels of Mn²⁺, but to a lesser degree than spermine. A slight stimulatory effect was consistently derived from putrescine as well, while cadaverine, putreanine, and monoamines were ineffectual. Spermine had a similar effect on the enzymatic transfer of GalNAc to a protein core acceptor but had little or no effect on the enzymatic transfer of sialic acid to sialidase-treated ovine submaxillary mucin, galactose to N-acetylglucosamine, or fucose to sialidase-galactosidase-treated fetuin. Similar results were obtained with enzyme preparations prepared from canine submaxillary glands. Other polycationic compounds such as protamine, histone, and polylysine also stimulated enzymatic activity at suboptimal concentrations of mn²⁺.     

Effects of transglutaminase substrates and inhibitors on the motility of demembranated reactivated spermatozoa

The effects of transglutaminase (TGase) substrates putrescine, dansylcadaverine, spermine, etc., and the TGase inhibitor cystamine were tested on the motility of demembranated mammalian spermatozoa. These products blocked within a few seconds the motility of demembranated reactivated spermatozoa at concentrations ranging from 0.25 to 5 mM. These minimal inhibitory concentrations could be decreased 5–150-fold when TGase substrates and inhibitor were incubated with demembranated spermatozoa for 15 min prior to the addition of Mg·ATP. The inhibition was reversed by higher concentrations of Mg·ATP but none of these TGase substrates or inhibitor could inhibit bull sperm dynein ATPase. TGase activities, as measured by the incorporation of ³H-putrescine into TCA-precipitable proteins, were present in both sperm Triton-soluble and -insoluble fractions. On the other hand, amine acceptor protein substrates for the TGase-catalyzed reaction were present only in the insoluble fraction. The Triton-soluble TGase was similar to the known “tissue” TGases; the Triton-insoluble TGase activity was calcium independent. The same TGase substrates and inhibitor that blocked the motility of reactivated spermatozoa also blocked TGase activities. Linear relationships were observed between the concentrations of these substances required to block sperm motility and those to block TGase activities. These data suggest the involvement of a TGase activity in sperm motility.     

Involvement of a Novel Class C Beta-Lactamase in the Transglutaminase Mediated Cross-Linking Cascade of Streptomyces mobaraensis DSM 40847

Streptomyces mobaraensis DSM 40847 secretes transglutaminase that cross-links proteins via γ-glutamyl-ε-lysine isopeptide bonds. Characterized substrates are inhibitory proteins acting against various serine, cysteine and metalloproteases. In the present study, the bacterial secretome was examined to uncover additional transglutaminase substrates. Fractional ethanol precipitation of the exported proteins at various times of culture growth, electrophoresis of the precipitated proteins, and sequencing of a 39 kDa protein by mass spectrometry revealed the novel beta-lactamase Sml-1. As indicated by biotinylated probes, Sml-1, produced in E. coli, exhibits glutamine and lysine residues accessible for transglutaminase. The chromogenic cephalosporin analogue, nitrocefin, was hydrolyzed by Sml-1 with low velocity. The obtained K_m and k_cat values of the recombinant enzyme were 94.3±1.8 μM and 0.39±0.03 s^-1, respectively. Penicillin G and ampicillin proved to be weak inhibitors of nitrocefin hydrolysis (K_i of 0.1 mM and 0.18 mM). Negligible influence of metals on β-lactamase activity ruled out that Sml-1 is a Zn²⁺-dependent class B beta-lactamase. Rather, sequence motifs such as SITK, YSN, and HDG forming the active core in a hypothetical structure may be typical for class C beta-lactamases. Based on the results, we assume that the novel transglutaminase substrate ensures undisturbed growth of aerial hyphae in Streptomyces mobaraensis by trapping and inactivating hostile beta-lactam antibiotics.     

Transglutaminase activity in pancreatic islets

1. Pancreatic islet homogenates catalyze, in a Ca²⁺-dependent fashion, the incorporation of [2,5-³H]histamine, [1,4-¹⁴C]putrescine, [1,2-³H]agmatine, [¹⁴C]methylamine, L-[U-¹⁴C]lysine in N,N-dimethylcasein. 2. Using [2,5-³H]histamine as the amine donor, the K_m for Ca²⁺ and histamine amounts to 90μM and 0.7 mM, respectively. 3. The incorporation of [2,5-³H]histamine into N,N-dimethylcasein is inhibited by monodansylcadaverine, N-p-tosyl glycine, bacitracin and methylamine, the relative extent of inhibition depending on the respective concentrations of Ca²⁺, inhibitor and amine donor. 4. Bacitracin and methylamine, but not N-p-tosyl glycine, cause a dose-related inhibition of glucose-stimulated insulin release. 5. It is concluded that, in pancreatic islets, the Ca²⁺-responsive transglutaminase activity plays a critical role in the process of glucose-induced insulin release.     

Transglutaminase-catalysed incorporation of putrescine into denatured cytochrome. Preparation of a mono-substituted derivative reactive with cytochrome c oxidase

Guinea pig liver transglutaminase has been used to incorporate putrescine into horse heart cytochrome c. The native protein showed essentially no incorporation, while ethanol-denatured cytochrome c incorporated almost 1 mol putrescine per mol protein. No increase in this level of modification was obtained when maleylated cytochrome c and the tryptic peptides of cytochrome c were used as substrates. Analysis of the modified ethanol-denatured cytochrome c by tryptic cleavage and peptide isolation showed that glutamine-42 of the intact protein is the site of incorporation of radioactively labelled putrescine. Ethanol-denatured cytochrome c that was specifically modified at glutamine-42 by incorporated of putrescine could be readily renatured. The renatured modified protein showed reactivity with cytochrome c oxidase comparable to that of the original native protein.     

Polyamine uptake in carrot cell cultures

Putrescine and spermidine uptake into carrot (Daucus carota L.) cells in culture was studied. The time course of uptake showed that the two polyamines were very quickly transported into the cells, reaching a maximum absorption within 1 minute. Increasing external polyamine concentrations up to 100 millimolar showed the existence of a biphasic system with different affinities at low and high polyamine concentrations. The cellular localization of absorbed polyamines was such that a greater amount of putrescine was present in the cytoplasmic soluble fraction, while spermidine was mostly present in cell walls. The absorbed polyamines were released into the medium in the presence of increasing external concentrations of the corresponding polyamine or Ca²⁺. The effects of Ca²⁺ were different for putrescine and spermidine; putrescine uptake was slightly stimulated by 10 micromolar Ca²⁺ and inhibited by higher concentrations, while for spermidine uptake there was an increasing stimulation in the Ca²⁺ concentration range between 10 micromolar and 1 millimolar. La³⁺ nullified the stimulatory effect of 10 micromolar Ca²⁺ on putrescine uptake and that of 1 millimolar Ca²⁺ on spermidine uptake. La³⁺ at 0.5 to 1 millimolar markedly inhibited the uptake of both polyamines, suggesting that it interferes with the sites of polyamine uptake. Putrescine uptake was affected to a lesser extent by metabolic inhibitors than was spermidine uptake. It is proposed that the entry of polyamines into the cells is driven by the transmembrane electrical gradient, with a possible antiport mechanism between external and internal polyamine molecule.     

Effects of Polyamines on the Oxidation of Exogenous NADH by Jerusalem Artichoke (Helianthus tuberosus) Mitochondria

The effect of polyamines (putrescine, spermine, and spermidine) on the oxidation of exogenous NADH by Jerusalem artichoke (Helianthus tuberosus L. cv. OB1) mitochondria, have been studied. Addition of spermine and/or spermidine to a suspension of mitochondria in a low-cation medium (2 millimolar-K⁺) caused a decrease in the apparent K_m and an increase in the apparent V_max for the oxidation of exogenous NADH. These polycations released by screening effect the mitochondrially induced quenching of 9-aminoacridine fluorescence, their efficiency being dependent on the valency of the cation (C⁴⁺ > C³⁺). Conversely, putrescine only slightly affected both kinetic parameters of exogenous NADH oxidation and the number of fixed charges on the membranes. Spermine and spermidine, but not putrescine, decreased the apparent K_m for Ca²⁺ from about 1 to about 0.2 micromolar, required to activate external NADH oxidation in a high-cation medium, containing physiological concentrations of Pi, Mg²⁺ and K⁺. The results are interpreted as evidence for a role of spermine and spermidine in the modulation of exogenous NADH oxidation by plant mitochondria in vivo.