Purification and properties of a polyamine oxidase from Zea mays

Polyamine oxidase, purified 260-fold from maize shoots, was light yellow in colour. Maximum light-absorption was at 450 nm and was decreased by the addition of either sodium dithionite or spermidine, but not by putrescine. Under aerobic conditions, the enzyme could use p-benzoquinone as an electron acceptor. Cu²⁺ inhibited the enzyme activity, while SO₃⁻ was stimulatory. Several metal-binding agents and thiol reagents were without effect.     

Presence of di- and polyamines covalently bound to protein in rat liver

Acid hydrolysis of trichloroacetic acid precipitate from rat tissue (liver, kidney and testis) homogenate released significant amounts of acid-insoluble putrescine, spermidine and spermine. Following incubation of liver homogenate with [1,4-¹⁴C]putrescine, 1.4% of total radioactivity and 1.0% of labelled diamine were recovered in the acid-insoluble fraction. Exhaustive digestion of acid-precipitable material with proteinases (Pronase, aminopeptidase M, carboxipeptidase A, B and Y) revealed the presence of di- and polyamines and of N¹-(γ-glutamyl)spermidine, N¹-(γ-glutamyl)sperminine and N¹, N¹²-bis(γ-glutamyl)spermine. These derivatives were identified both by chromatographic analysis and by enzymatic digestion with purified γ-glutamylamine cyclotransferase. The finding of di- and polyamine γ-glutamyl derivatives in the proteinase-digested acid-insoluble fraction of homogenate may be considered as a proof of the in vivo transglutaminase-catalyzed binding of polyamines to proteins. This evidence suggests that di- and polyamines might have an important role in mammalian tissues through covalent binding to proteins by either one or both the primary amino groups.     

Phospholipid metabolism following fertilization in sea urchin eggs and embryos.

Phospholipid metabolism during early development was examined in the sea urchins Stronglyocentrotus purpuratus and Lytechinus pictus. Transport of ³H-choline was stimulated fivefold following fertilization in both species. However, the actual percent incorporation of labeled precursors into phospholipids from the TCA soluble pool did not change at fertilization. There was a slight increase in transport of ¹⁴C-ethanolamine at fertilization but again there was no change in its percent incorporation into phospholipids. When eggs were preloaded with ³H-choline or ¹⁴C-ethanolamine and fertilized, the eggs or embryos showed similar patterns of incorporation into phospholipids. There was no significant change in the percent phosphorylation of choline in fertilized or unfertilized eggs.An investigation was made of the activity of choline kinase, the first enzyme in the biosynthesis of phosphatidylcholine. This enzyme was found to have similar activities in fertilized and unfertilized eggs using a variety of homogenization media. The activity of choline kinase was found to decrease slightly in activity at fertilization and reach a maximum activity by gastrula.These results indicate that there is no activation of phospholipid synthesis at fertilization of sea urchin eggs. Apparent increased incorporation actually reflects increased transport of precursors and not de novo synthesis.     

INHIBITION OF DIHYDROFOLATE REDUCTASE BY PALMITOYL-CoA AND THE REVERSAL OF THE INHIBITION BY SPERMINE AND SPERMIDINE IN THE EGGS OF THE SEA URCHIN,HEMICENTROTUS PULCHERRIMUS*

Dihydrofolate reductase activity in fertilized eggs of the sea urchin, Hemicentrotus pulcherrimus, was almost the same as in unfertilized eggs. Aminopterin inhibited the enzyme competitively with dihydrofolate (FH₂). The apparent K_m value for FH₂ in the dihydrofolate reductase reaction was about 0.1 μM in the crude homogenate of both unfertilized and fertilized eggs. Dihydrofolate reductase in the eggs was also inhibited by palmitoyl-CoA. The inhibition was canceled by polyamines, especially by spermine, but putrescine failed to prevent the enzyme from the inhibition. The change in long-chain acyl-CoA and polyamine concentrations during fertilization are discussed as possible regulatory factors of the enzyme.     

Effects of Polyamines on Proline Endopeptidase Activity in Rat Brain

The in vitro effects of polyamines on the activity of proline endopeptidase (PEPase) in rat brain cytosol, which contains an endogenous PEPase inhibitor, have been studied. Of the three amines tested (spermine, spermidine, and putrescine), spermine and spermidine markedly enhanced the enzyme activity in brain cytosol. At 6.25 mM spermine or 25 mM spermidine, a 13- or 14-fold enhancement of the enzyme activity was observed. When Mg2+ was used, an approximately fourfold enhancement of the enzyme activity was observed at 50 mM. The enhancement produced by spermine or spermidine was unaffected by Mg2+ up to 50 mM. The activity of purified PEPase was only slightly affected by each polyamine, but it was inhibited 50% by 50 mM Mg2+. On the other hand, 50% inhibition of the enzyme produced by the purified PEPase inhibitor (Mr 7,000: Ki 0.67 mM) was completely restored by addition of 0.7 mM spermine, 3.5 mM spermidine, or 28 mM putrescine. This restoration of inhibition by polyamines was reversed by increasing the inhibitor concentration. These data suggest that polyamines effectively reverse the inhibition of PEPase by its endogenous inhibitor by the reversible formation of a kinetically significant complex. The possible functions of polyamines in the regulation of PEPase in vivo are discussed.     

Polyamine distribution and activity of their biosynthetic enzymes in the European sea bass (Dicentrarchus labrax L.) compared to the rat

1. In the liver, heart and brain of the European sea bass, putrescine concentrations are much higher than in the equivalent rat tissues; spermidine and spermine levels are smaller. 2. Ornithine decarboxylase in the bass liver is more active, but less stable than that in the rat; stability is acquired upon partial purification. Bass liver adenosylmethionine decarboxylase activity is less than that found in the rat. Both are activated and stabilized by putrescine. 4. The activating effect of putrescine decreases as the assay temperature is decreased. This may explain the high level of putrescine but low levels of spermidine and spermine in the bass liver.     

CYTOPLASMIC DYNEIN OF THE SEA URCHIN EGG I. PARTIAL PURIFICATION AND CHARACTERIZATION*

Cytoplasmic ATPase of sea urchin eggs was partially purified by ammonium sulfate fractionation, DEAE-cellulose chromatography, gel-filtration chromatography and sucrose density gradient centrifugation. The specific activity increased to 0.7 μmole/min/mg protein indicating 100 fold purification. The ATPase had a sedimentation constant of 12S and was highly specific for ATP. The enzyme fraction contained neither (Na, K)-ATPase, Ca-ATPase, oligomycin-sensitive ATPase, phosphatases, nor myosin. This cytoplasmic ATPase was inhibited by a low concentration of vanadate (V). Half-maximal inhibition was observed at a vanadate concentration of 1 μM at low ionic strength. The inhibition was almost totally reversed by addition of norepinephrine. The vanadate-sensitivity of cytoplasmic ATPase decreased with increasing KCl concentration. The activation by Mg²⁺ or Ca²⁺, and dependence of the activity on KCl concentration characteristic of dyneins from sea urchin sperm flagella and the embryonic cilia were observed with cytoplasmic ATPase. These results allowed the cytoplasmic ATPase to be classified as a dynein. In addition, this designation was reinforced by the fact that an oligomeric 23S form of cytoplasmic dynein was identified in the cytoplasm as well as in the isolated mitotic apparatus.     

Induction of diamine oxidase activity in rat kidney during compensatory hypertrophy

Diamine oxidase (EC 1.4.3.6) activity, measured as [¹⁴C]Δ¹-pyrroline formation from [¹⁴C] putrescine, was studied in homogenates of rat kidney during compensatory hypertrophy after unilateral nephrectomy. Acetaldehyde and to a lesser degree phenobarbital, at concentrations which did not modify the activity of a preparation of hog kidney diamine oxidase, increased Δ¹-pyrroline formation in kidney homogenate, which suggests that aldehyde-metabolizing enzymes present in this tissue may interfere with yield of Δ¹-pyrroline and that the use of acetaldehyde may give better information on kidney diamine oxidase activity. Other inhibitors of aldehyde-metabolizing enzymes such as chloral hydrate, disulfiram, and pyrazole cannot be used for diamine oxidase determination since they stimulated or depressed this enzyme activity. In rat kidney undergoing compensatory hypertrophy the levels of putrescine, spermidine, and spermine increased rapidly and were followed by an increase in diamine oxidase activity that presented a first peak on day 2 and a second peak on day 6. The administration of cycloheximide or actinomycin D to nephrectomized rats prevented the increase in diamine oxidase activity. The study of the turnover rate of diamine oxidase with cycloheximide demonstrated that the half-life of this enzyme was about 14 h in normal and hypertrophic kidney. These results suggest that the increase in diamine oxidase activity in renal hypertrophy was due to the synthesis of new enzyme rather than to a slowing of its degradation.     

L-ornithine-induced inactivation of mammalian ornithine decarboxylase in vitro

Partially purified ornithine decarboxylase, isolated from the liver of thioacetamide-treated rats, is stable in the absence of added low-molecular-mass thiols or other reducing agents. However, under these conditions, the enzyme is rapidly inactivated upon incubation with L-ornithine or L-2-methylornithine. The inactivation process follows first-order kinetics, and saturation kinetics are observed. Rapid recovery of activity is observed after subsequent addition of dithiothreitol. As distinct from L-ornithine, D-ornithine, putrescine, spermidine, or spermine do not produce inactivation of ornithine decarboxylase. Very similar results are obtained with pure ornithine decarboxylase isolated from androgen-stimulated mouse kidney, stabilized with a rat liver extract.     

Regulation of putrescine metabolism in Ehrlich ascites carcinoma cells exposed to hypotonic medium

When exposed to hypotonic growth medium, Ehrlich ascites carcinoma cells showed a rapid stimulation of ornithine decarboxylase (EC 4.1.1.17) activity in 4 h, followed by a rise in their putrescine content. This effect was totally abolished by addition of a slightly hypertonic concentration of sodium chloride or sucrose to the medium. The general protein synthesis was unaffected by the hypotonic treatment. The uptake of putrescine and, to a lesser extent, spermidine was enhanced, and the conversion of the radioactive putrescine into spermidine appeared partially inhibited during later stages of the hypotonic treatment. As a result, the half-life of putrescine increased from 2.8 h under isoosmotic conditions to 7.3 h in hypoosmotic medium. Both exogenous ([¹⁴C]-putrescine-derived) and endogenous ([¹⁴C]ornithine-derived) putrescine degraded at similar rates in control and hypotonic cells, yet the putrescine taken from the medium degraded preferably to nonpolyamine products, while the putrescine synthesized in the cell was converted evenly to spermidine and to other metabolites. Adenosylmethionine decarboxylase activity (EC 4.1.1.50), which provides the second precursor for spermidine and spermine synthesis, was distinctly inhibited in the hypotonic medium. Inhibition was likewise observed in spermidine synthase activity, while spermine synthase was marginally stimulated. It appears that the hypotonic treatment serves a special condition under which not only the formation of putrescine is enhanced dramatically but the cells also attempt to conserve the diamine by preventing its further metabolism to higher polyamines.     

Purification and characterization of trypsin-like enzyme from sea urchin eggs: substrate specificity and physiological role

A trypsin-like enzyme has been purified to homogeneity from eggs of the sea urchin, Strongylocentrotus intermedius. The purified enzyme efficiently hydrolyzed Z-Phe-Arg-4- methylcoumaryl -7-amide (MCA) and Pro-Phe-Arg-MCA among 12 peptidyl-Arg (or Lys)- MCAs . The substrate specificity of the enzyme was closely similar to that of the enzyme activity in the egg cortical granule exudate. Among various peptidyl-argininal (Arg-H) derivatives, Z-Phe-Arg-H and Z-Phe-Leu-Arg-H showed the strongest inhibition against both the activity of the purified enzyme and the elevation of vitelline coat. Thus, the trypsin-like enzyme of sea urchin possesses a narrow substrate specificity and participates at least in the elevation of vitelline coat during fertilization.     

Ca2+-stimulated ATPase during the early development of parthenogenetically activated eggs of the sea urchin Paracentrotus lividus

A Ca²⁺-stimulated ATPase shows fluctuations in the activity in parthenogenetically activated sea urchin eggs very similar to those described earlier for fertilized eggs. Besides activity peaks in the first part of a cell cycle the enzyme activity increases when the mitotic apparatus (MA) or MA-like structures like monasters or cytasters are formed. A possible function of the enzyme in the assembly of the MA is discussed.     

Levels of Polyamines and Kinetic Characterization of Their Uptake in the Soybean Pathogen Phytophthora sojae

Polyamines are ubiquitous biologically active aliphatic cations that are at least transiently available in the soil from decaying organic matter. Our objectives in this study were to characterize polyamine uptake kinetics in Phytophthora sojae zoospores and to quantify endogenous polyamines in hyphae, zoospores, and soybean roots. Zoospores contained 10 times more free putrescine than spermidine, while hyphae contained only 4 times as much free putrescine as spermidine. Zoospores contained no conjugated putrescine, but conjugated spermidine was present. Hyphae contained both conjugated putrescine and spermidine at levels comparable to the hyphal free putrescine and spermidine levels. In soybean roots, cadaverine was the most abundant polyamine, but only putrescine efflux was detected. The selective efflux of putrescine suggests that the regulation of polyamine availability is part of the overall plant strategy to influence microbial growth in the rhizosphere. In zoospores, uptake experiments with [1,4-¹⁴C]putrescine and [1,4-¹⁴C]spermidine confirmed the existence of high-affinity polyamine transport for both polyamines. Putrescine uptake was reduced by high levels of exogenous spermidine, but spermidine uptake was not reduced by exogenous putrescine. These observations suggest that P. sojae zoospores express at least two high-affinity polyamine transporters, one that is spermidine specific and a second that is putrescine specific or putrescine preferential. Disruption of polyamine uptake or metabolism has major effects on a wide range of cellular activities in other organisms and has been proposed as a potential control strategy for Phytophthora. Inhibition of polyamine uptake may be a means of reducing the fitness of the zoospore along with subsequent developmental stages that precede infection.     

Synthesis and accumulation of polyamines in rat liver regenerating after treatment with carbon tetrachloride

A single intraperitoneal injection of carbon tetrachloride into rats resulted within 12 hours in a marked accumulation of putrescine in liver with a concomitant decrease in the concentration of spermidine. The accumulation of putrescine apparently was partly due to an immense stimulation of ornithine decarboxylase activity occurring at the same time. However, in addition it was found that during the maximal accumulation of putrescine there was a marked incorporation of radioactivity from labelled spermidine to liver putrescine $\text{in vivo}$. The conversion of spermidine to liver putrescine was hardly detectable in control animals. Besides the treatment with carbon tetrachloride, increased conversion of radioactive spermidine to liver putrescine $\text{in vivo}$ also occurred after treatment with growth hormone, after partial hepatectomy and after treatment with thioacetamide, $\text{i. e.}$ under circumstances characterized by a stimulation of ornithine decarboxylase activity and an increased accumulation of putrescine.     

Synthesis and Content of Polyamines in Bloodstream Trypanosoma brucei*

SYNOPSIS. The sensitive dansyl procedure was used to detect putrescine and spermidine, but not spermine and cadaverine, in pleomorphic Trypanosoma brucei. The polyamines were synthesized in vitro from [³H]ornithine, [¹⁴C]arginine and [¹⁴C]methionine. Proline, agmatine, and citrulline, but not glutamine, glutamic or pyroglutamic acids, stimulated spermidine formation from [¹⁴C]methionine. Putrescine and spermidine synthesis occurred rapidly from ornithine: putrescine synthesis peaked in 0.5 h, spermidine in 1 h. Trypanosoma brucei assimilated exogenous ¹⁴C-labeled putrescine, spermidine, and spermine; spermidine and spermine were taken up 5 times as rapidly as putrescine. Polyamine syntheses may therefore be a practical target for novel trypanocies.     

Ovostatin,an endogenous trypsin inhibitor of sea urchin eggs: Purification and characterization of ovostatin from eggs of the sea urchin,Strongylocentrotus intermedius

A trypsin inhibitor, termed ovostatin, has been purified approximately 265-fold with 82% yield, from unfertilized eggs of the sea urchin Strongylocentrotus intermedius, using trypsin coupled Sepharose 4B as an affinity column for chromatography. The isolated ovostatin is homogeneous in sodium dodecyl sulfate/polyacrylamide gel electrophoresis, the estimated molecular weight being 20K–21.5K. Ovostatin inhibits preferentially trypsin-like endogenous protease purified from the eggs of the same species and bovine pancreatic trypsin and also bovine pancreatic chymotrypsin. Values of IC₅₀ (amount causing 50% inhibition of enzymes) for trypsin-like protease purified from eggs of the same species, bovine pancreatic trypsin, and bovine pancreatic chymotrypsin, are 0.91 ± 0.13 μg/ml (4.55 ± 0.65 × 10^?8 M), 3.0 ± 0.28 μg/ml (1.5 ± 0.14 × 10^?7 M), and 4.8 ± 0.2 μg/ml (2.4 ± 0.1 × 10^?7 M), respectively, in the experimental condition used. Kinetic studies indicate that ovostatin is a noncompetitive inhibitor of trypsin. The inhibitor is relatively heat labile. NaCl (0.025–0.01 M) enhances the inhibitor activity, whereas KCl is inhibitory. Ovostatin requires a low concentration of Ca²⁺ for activity. The activity is higher in unfertilized eggs than in fertilized eggs; total activity and specific activity in unfertilized eggs is about 1.67-fold and 1.85-fold higher than those in fertilized eggs, respectively. We believe that ovostatin may regulate the function of the cortical granule protease and other trypsin-like proteases that are activated in sea urchin eggs during fertilization.     

Effects of inhibitors of ornithine and S-adenosylmethionine decarboxylases on L6 myoblast proliferation

The role of polyamines in myoblast proliferation was studied by treating cells of Yaffe's L6 line of rat myoblasts with inhibitors of polyamine synthesis. Both an irreversible inhibitor of ornithine decarboxylase--difluoromethyl-ornithine (DFMO)--and a competitive inhibitor of S-adenosyl-methionine decarboxylase--methylglyoxal-bis(guanylhydrazone) (MGBG)--depressed spermidine levels and inhibited myoblast proliferation. Spermine levels were not significantly depressed by either inhibitor and putrescine levels were decreased only by DFMO. Putrescine and spermidine, but not magnesium, prevented inhibition of myoblast proliferation by DFMO and MGBG; determination of 14C-DFMO uptake in the presence and absence of these compounds demonstrated that they did not reduce the rate or extent of inhibitor uptake and thus prevent its inhibition of ornithine decarboxylase. Thus it seems likely that these inhibitors reduce cell proliferation by inhibiting polyamine formation. Addition of spermidine to the cells led to a substantial reduction in the activity of S-adenosyl-methionine-decarboxylase, suggesting that the enzyme is subject to negative regulation by the products of the polyamine biosynthetic pathway. Unexpectedly, addition of spermidine also increased intracellular putrescine levels; this apparently resulted from conversion of spermidine to putrescine. Addition of putrescine or spermidine in the absence of serum did not increase the rate of myoblast proliferation although it did elevate intracellular polyamine levels as expected. We conclude that some threshold level of one or more polyamines (probably spermidine) is necessary but not sufficient for initiation and maintenance of myoblast proliferation in culture.     

Acetylation of spermidine in polyamine catabolism

Treatment with thioacetamide (150 mg/kg)_ was used to enhance polyamine metabolism in rat liver. The increased uptake and catabolism of [¹⁴C]spermine and the changes of putrescine, spermidine and spermine concentrations indicated enhanced polyamine turnover rates. The increase of hepatic putrescine concentration was accompanied by an increase of monoacetylputrescine and N¹-monoacetylspermidine concentration. In control animals, the latter compound was below detection levels. Thioacetamide treatment also enhanced putrescine excretion, which again was concomitant with an increased excretion of N¹-acetylspermidine.The close time-dependent correlation between induced putrescine formation and enhanced formation of N¹-acetylsperimidine at a time when liver spermidine and spermine concentrations are not changed, favors the notion that acetylation is an essential step in polyamine degradation and elimination. The increase of polyamine oxidase and decrease of acetylpolyamine deacetylase activities in the liver of thioacetamide-treated rats is in line with an increased polyamine turnover, but these enzymes. although essential, are not rate-limiting in the catabolic reactions.     

CHANGE IN THE ACTIVITY OF ARYLESTERASE IN SEA URCHIN EGGS FOLLOWING FERTILIZATION

The activity of arylcsterase in sea urchin eggs ( Anthocidaris craxsispina ), increases at 5 min after fertilization to about 1.5-fold that in unfertilized eggs, and decreases at 15 min to a lower level than that in unfertilized eggs. Then the activity of the enzyme increases again. The enzyme activity in unfertilized eggs is enhanced by either fructose 1, 6-diphosphate (FDP) at concentrations between 4 and 10 μM, or guanosine 3', 5'-cyclic monophosphalc (cGMP) at concentrations between 0.1 and 0.3 μM. The activity is detectable in the crude microsomal fraction and also in the supernatant fraction obtained from sea urchin egg homogenates by centrifugation at 105,000 × g for 2 hr.     

Regulation of polyamine synthesis in physarum polycephalum during growth and differentiation

The levels and synthesis of polyamines were investigated in Physarum polycephalum to obtain information about their regulation during growth and differentiation in a lower eukaryote. Putrescine pools rapidly increased 4–5 fold during the change from dormant spherules to growing plasmodia. The activity of ornithine decarboxylase (EC 4.1.1.17), which converts ornithine to putrescine, reflected this rapid change in the level of putrescine. Spermidine levels were closely correlated with protein concentrations during differentiation due to variations in the activity of S-adenosyl-l-methionine decarboxylase which is involved in the conversion of putrescine to spermidine This enzyme was not stimulated by putrescine, unlike the similar enzyme in other eukaryotes, thereby permitting independent regulation of putrescine and spermidine levels. The high levels of both putrescine and spermidine suggest separate functions for these polyamines in Physarum.The half-lives of ornithine decarboxylase and S-adenosyl-l-methionine decarboxylase were 14 and 21.5 min, respectively. These short half-lives keep the polyamine metabolism under a very tight control as illustrated by the rapid fluctuations in enzyme activity during differentiation and the synchronous mitotic cycle. The step patterns of these unstable enzymes during the mitotic cycle suggest that these enzyme levels are limited by gene dosage.