Changes in polyamine contents during root and nodule growth of Phaseolus mungo

In Phaseolus mungo seeds, polyamine content increased during early germination, being maximum after 24 hr; and the arginine decarboxylase showed a peak after 18 hr. During nodule initiation and growth two peaks of polyamine contents were noted-the first being 2 weeks after nodule initiation and a second one after 5 weeks. Arginine decarboxylase activity also followed the same pattern. In the roots the polyamine concentration as well as arginine decarboxylase increased up to week 2 after sowing followed by a gradual decrease. Estimation of RNA, DNA and protein contents showed a pattern similar to that of the polyamines.     

Polyamine oxidase activity and polyamine content in maize during seed germination

Polyamine oxidase (PAO, EC 1.5.3.3) activity and polyamine content in the cell wall and soluble fractions obtained from embryos, endosperms and shoots and roots of etiolated or green seedlings of maize ( Zea mays L. cv. WF9) during the first 7 days of germination were investigated. Polyamine content was also determined in the trichloroacetic acid-soluble (free polyamines) and trichloroacetic acid insoluble (bound polyamines) fraction obtained from the same tissues. PAO activity, determined by the radiometric method based on the recovery of the labelled reaction product 1-pyrroline, was mostly localized in the cell wall fraction. The activity was very low in embryos and endosperms and present in traces in roots. In etiolated shoots PAO activity increased sharply, while in green shoots it was low and increased slowly. No polyamines were found in the cell wall fraction and only putrescine was detected in the soluble fraction, with the exception of the embryo, where spermidine and spermine were also present. In the TCA-soluble fraction of embryos, putrescine increased during imbibition, while spermidine and spermine decreased; in the endosperm no relevant changes in polyamines occurred. In the same fraction of green and etiolated seedlings, putrescine increased, giving a peak at days 3–5, while spermidine decreased to very low levels. The amount of bound polyamines was 1–4% of the free ones. The pattern of PAO activity seems to be unrelated to endogenous free polyamine content, which is the same in shoots and roots of etiolated and green seedlings. Enzyme activity, very low in ungerminated seeds, increased continuously during the progression of germination, especially in etiolated shoots, indicating a possible involvement in cell wall formation.     

Effects of ethylene and auxin on polyamine levels in suspension-cultured tobacco cells

The effects of ethylene and auxin on polyamine levels were studied in suspension-cultured cells of tobacco ( Nicotiana tabacum . L). Treatment of 4-day-cultured cells with ethylene increased the levels of spermidine and spermine. The activities of arginine decarboxylase (ADC; EC 4.1.1.19), ornithine decarboxylase (ODC: EC 4.1.1.17), and S -adenosylmethionine decarboxylase (SAMDC: EC 4.1.1.50) rapidly increased between 3 and 12 h. An auxin, indole-3-acetic acid (IAA), increased polyamine levels and activities of ADC, ODC and SAMDC. The spermine level continued to increase significantly during a 24-h incubation with IAA. The increases in polyamine accumulation induced by ethylene were partially offset by an inhibitor of ethylene action, 2,5-norbornadiene. It is suggested that the auxin-induced polyamine accumulation occurred directly, without metabolic competition between ethylene and polyamine biosynthesis, and indirectly, through auxin-induced ethylene formation.     

Changes in polyamine concentration during seed germination

Phaseolus mungo seeds 0 to 10 days after germination contained putrescine, spermidine, spermine, cadaverine, agmatine and tyramine. The rate of biosynthesis of total polyamines, proteins and RNA in the developing seeds follows similar profiles, reaching maxima 3 hr from germination. Putrescine, cadaverine, spermidine, spermine and agmatine were the major amines found in Pisum sativum 0–7 days after germination. RNA and proteins seem to follow the same pattern as polyamines during the first 12 hr in the developing pea seeds. RNA reaches a peak at 15 hr and polyamines and proteins peak 24 hr after germination. A rise to total polyamine concentration was also observed in seeds of Tragopogon porrifolius, Zea mays and Triticum aestivum 2–12 hr after germination.     

Interaction between ethylene and ABA in the regulation of polyamine level in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> during UV-B stress

The effects of treatment with ethylene (0.01–100 μl/l) on ABA and polyamine contents and treatment with ABA on ethylene synthesis, polyamines content, and the resistance to UV-B radiation of two-week-old Arabidopsis thaliana (L.) Heynh, Columbia ecotype plants grown u?er sterile conditions were studied. Ethylene stimulated the accumulation of polyamines only at concentrations of 0.1–10 μl/l, which could activate ABA synthesis. Treatment with ABA (50–5000 μM, 1 μl per plant) decreased the UV-B-induced ethylene synthesis and a spermine and spermidine loss, increasing the content of putrescine, the precursor of these polyamines. ABA inhibited fresh weight accumulation in irradiated and nonirradiated plants but prevented them from severe damage and death at the high (18 kJ/m²) and lethal (27 kJ/m²) UV-B dose, respectively. The data obtained demonstrated a mutual regulation of ethylene and ABA syntheses and the participation of these hormones in the control of the polyamine level during adaptation of A. thaliana to UV-B stress.     

Changes in polyamine contents during development and germination of rice seeds

In rice seed, polyamine concentration on a fresh weight basis increased for 16 days after fertilization, followed by a gradual decline. Arginine decarboxylase activity also followed the same pattern. On germination, the polyamine concentration was greatest after 24 hr and the arginine decarboxylase showed a peak after 48 hr.     

Ethylene evolution and ABA and polyamine contents in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> during UV-B stress

Changes in plant growth, membrane integrity, ethylene evolution, ABA content, and the content of free polyamines were examined in 14-day-old Arabidopsis thaliana (L.) Heynh., strain Columbia (Col-0) plants after a single UV-B irradiation with low (3 kJ/m²), moderate (6–9 kJ/m²), high (18 kJ/m²), and lethal (27 kJ/m²) doses. The UV-B treatment caused dose-dependent suppression of plant growth. One hour after irradiation, the membrane damage was evident from the increased leakage of electrolytes. The low-dose and moderate-dose irradiation caused a transient increase in evolution of ethylene and in the content of putrescine (spermidine and spermine precursor) with the peaks of these parameters attained at 5 and 24 h, respectively. The high-and lethaldose irradiation induced a smaller rise in ethylene evolution, with a slight trend to its decrease, especially, after the exposure to the lethal dose. The high and lethal doses of UV-B suppressed putrescine accumulation, depleted spermidine and spermine pools, and caused severe injuries and plant death. During the first day after irradiation, the ABA content increased in proportion to the irradiation dose. On the second day, the accumulation of ABA was observed in plants irradiated with moderate doses. The accumulation was arrested after a high-dose irradiation and was diminished by 45% after a lethal dose treatment. The results provide evidence for the involvement of ethylene, ABA, and polyamines in plant responses induced by UV-B irradiation.     

Control of plant disease by perturbation of fungal polyamine metabolism

The diamine putrescine and the polyamines spermidine and spermine are ubiquitous in nature and are essential for cell proliferation. Since polyamine biosynthesis in plants can start from either ornithine or arginine, while fungal polyamine biosynthesis appears to utilise only the ornithine route, it was suggested that specific inhibition of fungal polyamine biosynthesis should be lethal. Indeed, inhibitors of polyamine biosynthesis, e.g. the ornithine decarboxylase inhibitor α-difluoromethylornithine, have been shown to inhibit fungal growth in vitro and to control fungal infections on a variety of plants under glasshouse and field conditions. It is now known that polyamine analogues can perturb polyamine metabolism leading to powerful antiproliferative effects in cancer cells. This paper reviews the results of a research programme focused on the synthesis and evaluation of putrescine analogues as novel fungicides. A number of aliphatic, alicyclic and cyclic diamines have been shown to possess considerable fungicidal activity, but although many of these compounds perturb polyamine metabolism in fungal cells, such changes are not considered sufficient to account for the observed antifungal effects. More recent work on spermidine analogues is also described.     

Arabidopsis ADC genes involved in polyamine biosynthesis are essential for seed development

Arginine decarboxylase (ADC) is a rate-limiting enzyme that catalyzes the first step of polyamine (PA) biosynthesis in Arabidopsis thaliana. We generated a double mutant deficient in Arabidopsis two ADC genes (ADC1-/- ADC2-/-) and examined their roles in seed development. None of the F2 seedlings from crosses of adc1-1 and adc2-2 had the ADC1-/- ADC2-/- genotype. In addition, some abnormal seeds were observed among the ADC1+/- ADC2-/- and ADC1-/- ADC2+/- siliques. Viable offspring with the ADC1-/- ADC2-/- genotype could not be obtained from the ADC1+/- ADC2-/- and ADC1-/- ADC2+/- plants. These results indicate that AtADC genes are required for production of polyamines that are essential for normal seed development in Arabidopsis.     

Replacement of Mg2+ by polyamines in the aminoacylation of tRNA from Phaseolus

The ability of putrescine, spermidine and spermine to replace Mg²⁺ ions in the charging reaction of tRNA was estimated for seventeen amino acids. The polyamines promoted only the transfer reaction in the case of Leu, Ile, Val, Tyr and Arg. A synergistic effect was observed when spermine was added to a suboptimal concentration of Mg²⁺ (charging at only 5% of the optimal level). This synergistic effect was not observed for Ala, Asp-NH₂, His, Lys and Ser. Kinetic studies showed a slower aminoacylation rate in those experiments when spermine and Mg⁺² (at 5% of the Mg²⁺ optimal concn) were used together than with Mg²⁺ (at the optimal concn) alone.     

Free and conjugated polyamines in embryogenic and non-embryogenic leaf regions of camellia leaves before and during direct somatic embryogenesis

Contents of endogenous free and conjugated polyamines were determined in embryogenic and non-embryogenic leaf regions of Camellia japonica leaf explants, before (day 0), and 20 and 45 days after the induction of direct somatic embryogenesis, to clarify whether or not polyamines are linked to the specific morphogenic responses previously reported in the leaf regions. The analysis was carried out by high-performance liquid chromatography. The results showed that there were no significant differences in the endogenous free and conjugated putrescine (Put), spermidine (Spd) and spermine (Spm) contents between the embryogenic and non-embryogenic leaf regions of the same leaf. Thus, leaf region-specific embryogenic response in C. japonica is not being determined/conditioned by the endogenous levels of Put, Spd and/or Spm. However, soluble and insoluble conjugated Put and soluble conjugated Spd seem to be related to the formation and development of globular embryos.     

Inhibition of polyamine biosynthesis by dicyclohexylamine in cultured cotyledons of Pinus radiata

Biondi, S., Torrigiani, P., Sansovini, A. and Bagni, N. 1988. Inhibition of polyamine biosynthesis by dicyclohexylamine in cultured cotyledons of Pinus radiata. - Physiol. Plant. 72: 471–476.
The effect of 1 mAf dicyclohexylamine (DCHA) on the synthesis of spermidine and spermine was examined in excised cotyledons of radiata pine ( Pinus radiata D. Don) cultured under shoot-forming (with cytokinin) and non-shoot-forming (minus cytokinin) conditions by incubation with [¹⁴C]-putrescine. In control cotyledons incorporation into spermidine showed a peak at day 2 in the presence and at day 5 in the absence of N⁶-benzyldenine (BA). DCHA-treated cotyledons gave the same labeling pattern, both in the presence and absence of benzyladenine, with a much smaller peak at day 2. The incorporation into spermidine and spermine was insignificant at day 5 and later. The total radioactivity in the trichloroacetic acid supernatant indicated that precursor uptake was strongly reduced by the drug. In addition, the percentage label found in the benzene phase and combined in the 3 polyamines was lower in DCHA-treated cotyledons. Thus, treatment with DCHA not only inhibited the conversion from putrescine to spermidine and spermine, but also reduced its conversion to other benzene-extractable compounds. S-Adenosylmethionine decarboxylase (SAMDC, EC 4.1.1.50) activity, which furnishes the propylamine group to spermidine and spermine synthases (EC 2.5.1.16 and EC 2.5.1.-), was not significantly affected by DCHA and appeared to be independent of the spermidine and spermine synthase reactions, suggesting that spermine synthesis decreased as a result of substrate depletion. The correlation between morphological development and polyamine biosynthesis is discussed.     

Amine levels in Lathyrus sativus seedlings during development

In growing Lathyrus sativus seedlings, the levels of DNA, RNA and protein markedly decreased in the cotyledons and progressively increased in the embryo-axis. In cotyledons, spermidine and spermine contents were substantially reduced while those of agmatine and putrescine were sharply increased. By contrast the embryo-axis progressively accumulated relatively larger amounts of agmatine, homoagmatine. putrescine, cadaverine, spermidine and spermine in parallel with similar changes in its DNA, RNA and protein content. While the cotyledons contained ca 50% of the total agmatine and putrescine present in the plant embryo by day 10, the embryo-axis, though representing less than 20% of the dry wt, contained 90 and 75% of total cadaverine and homoagmatine respectively of the seedlings. Spermidine and spermine levels of this tissue were also comparatively higher, being of the order of 80 and 50% respectively of the total. The root and shoot portions of the embryo-axis also exhibited a similar relationship between changes in DNA, RNA and protein and all the above amines during development. However, the polyamine content of the shoots was relatively higher than those of the roots during the growth period.     

Polyamine levels in pollinated and auxin-induced fruit of tomato (Lycopersicon esculentum) during development

The changes taking place during fruit development in the concentration of the 3 polyamine fractions, i.e. free, perchloric acid-soluble conjugates and perchloric acid-insoluble bound polyamines, were analyzed in tomato fruits ( Lycopersicon esculentum Mill, cv. F121) induced to set by either pollination or auxin application. Before the onset of cell division, total polyamines were 50% higher in auxin-treated fruits than in pollinated ones, most of the polyamines being found as perchloric acid-soluble conjugates in both fruit set treatments. At the onset the level of polyamines in both fruit types was 100 times higher than during cell expansion or ripening. The highest polyamine found during cell division was perchloric acid-soluble conjugated spermidine in both fruit set treatments. After cell division, polyamine concentration was similar in both fruit set treatments. The concentration of polyamines in the jelly was similar in pollinated and auxin-induced fruits during cell expansion but not during ripening. At the onset of ripening there was an increase of one order of magnitude in the concentration of perchloric acid-insoluble bound putrescine in the jelly of pollinated fruits. Polyamines were more than 5-fold higher in unpollinated ovaries than in fruits induced to set by either pollination or auxins. It is suggested that pollinated and parthenocarpic fruits differ in their polyamine metabolism during the initial stages of development, but not after cell division. It is also suggested that polyamines undergo rapid turnover during cell division. Perchloric acid-insoluble bound putrescine might play a role in seed formation in tomatoes.     

Stress-dependent accumulation of spermidine and spermine in the halophyte Mesembryanthemum crystallinum under salinity conditions

We studied the effects of chloride salinity (300 and 500 mM NaCl) on the content of free polyamines (PAs) from putrescine (Put) family in Mesembryanthemum crystallinum L. leaves and roots. The contents of Put and spermidine (Spd) in leaves increased temporarily, achieving the highest values on the third day of salinity treatment; thereafter (by days 7–14), they dropped sharply. The content of spermine (Spm) increased gradually, and its high level was maintained until the end of experiment. The dynamics of Spm accumulation in leaves under salinity conditions resembled that of phosphoenolpyruvate carboxylase (PEPC), a key enzyme of the water-saving CAM pathway of photosynthesis. This indicates indirectly the involvement of Spm in the common ice plant adaptation to salinity. A decrease in the molar ratios of Spd to Spm in the leaves under salinity conditions could point to the acceleration of Spm biosynthesis (accumulation) during plant adaptation, whereas the levels of Spm precursors, Put and Spd, did not increase. This phenomenon could be explained by an accelerated conversion of Spd into Spm, an active liberation of free Spm from its conjugates, or changes in the rates of studied PA biosynthesis and degradation under salinity. At the same time, the intracellular concentration of ethylene rose under these conditions. It was supposed and then demonstrated, that the pathway of ethylene biosynthesis and that of the synthesis of Put family PAs compete under severe salinity conditions. This competition might be based on the disturbances in sulfur metabolism and a decrease in the methionine content, an immediate precursor of S-adenosyl-L-methionine.     

Manipulation of the polyamine content and senescence of apical buds of G2 peas

The effect of various treatments on the apical senescence and polyamine content of apical buds of G2 peas was analysed. Defruiting prevented senescence and increased bud size and polyamine content. Exogenous applications of GA₂₀ enhanced bud size and spermidine concentration. Applied spermidine had a slight effect on spermidine level but did not delay senescence. ACC strongly induced adecrease in bud size and, at 10 mM, apical senescence. This was accompanied by a steady decline in the level of all polyamines though their concentration remained constant until 10 mM ACC, where a drop was noted. Spermidine in the presence of ACC modulated the effect of ACC on the bud size while returning the internal polyamine content to control levels. AVG, an inhibitor of ACC synthesis produced pronounced increases in putrescine though no apparent effect on apical bud growth. Polyamine synthesis inhibitors were without effect on growth or internal polyamine content. The internal polyamine content appeared to correlate with apical bud size and vigor but did not show any consistent relationship to apical bud senescence.     

Changes in adrenergic receptors during the development of heart failure

Moderate and severe stages of congestive heart failure due to the loss of myocardium upon coronary occlusion in rats was associated with an increase in alpha-adrenergic receptors and a decrease in beta-adrenergic receptors in the viable left ventricle. However, at early stages of heart failure the number of beta-adrenergic receptors was decreased without any changes in the number of alpha-adrenergic receptors. The affinities of these receptors to alpha receptor antagonist (³H-prazosin) and beta receptor antagonist (³H-dihydroalprenolol) were not altered in the failing hearts. On the other hand, the pattern of changes in both alpha- and beta-adrenergic receptors in heart membranes treated with oxygen free radical generating system was different from that seen in the failing hearts. In particular, the affinities for these receptors were decreased whereas the number of beta-receptors was increased and the number of alpha-receptors was decreased or unchanged. These results indicate that alterations in the adrenergic receptors in heart failure are not due to the formation of oxygen free radicals.     

Interactions of polyamines with the DNA octamers d(m5CG)4 and d(GGAATTCC): A 1H‐NMR investigation

The interaction of two DNA octamers, d(m⁵CG)₄ and d(GGAATTCC), with the polyamines spermine⁴⁺ and spermidine³⁺, has been studied by means of ¹H‐nmr nuclear Overhauser effect (NOE) difference measurements. The experiments were performed at 10°C and for a polyamine charge to DNA charge (i.e., phosphate) ratio of 0.4, where the solution of d(m⁵CG)₄ contains about 50% Z‐form of the DNA. The results show that the polyamine intramolecular NOEs for the protons on the propyl chains are similarly negative with the two oligonucleotides, while those on the butyl chain show slightly more negative NOE with d(m⁵CG)₄ than with d(GGAATTCC). The fully N‐methylated analogues of spermine (Me₁₀Spn⁴⁺) and spermidine (Me₈Spd³⁺) as well as the diamines 1,3‐diaminopropane (DAP²⁺) and 1,4‐diaminobutane (putrescine²⁺) have been studied for the ability to transform d(m⁵CG)₄ from the B‐ to the Z‐form. ¹H‐nmr spectra showed the order spermine⁴⁺ > spermidine³⁺ > Me₁₀Spn⁴⁺ > Me₈Spd³⁺ > 1,3‐diaminopropane²⁺ > putrescine²⁺, with spermine showing the largest relative amount of Z‐DNA. ¹H‐nmr pulsed‐gradient self‐diffusion measurements of the triamines showed a large difference in the interaction of Spd and Me₈Spd with the two different duplexes. With the same duplex (either of the two), however, no difference between Spd and Me₈Spd can be seen. Within a two‐state model this is interpreted as a larger fraction of bound polyamines with d(m⁵CG)₄ than with d(GGAATTCC). © 1999 John Wiley & Sons, Inc. Biopoly 49: 41–53, 1999     

Polyamine metabolism and gene regulation during the transition of autonomous sugar beet cells in suspension culture from quiescence to division

Sugar beet cells grown in batch suspension culture have been used to study the regulation of polyamine levels during the transition from a quiescent to a proliferating state. The quiescent state was achieved by maintenance of the phytohormone autonomous cells in the stationary phase of the batch culture cycle. After subculture into fresh medium there was an increase in DNA synthesis which was accompanied by a dramatic increase in cellular polyamine levels. The levels of both free and bound cellular putrescine and spermidine within the cells reached a peak before the onset of the first synchronous division. The levels of putrescine, spermidine and to some extent spermine in the culture medium also increased dramatically shortly after subculture. The increase in polyamines was preceded by a rapid but transient increase in omithine decarboxylase (EC 4.1.1.17) and S -adenosylmethionine decarboxylase (EC 4.1.1.50). Arginine decarboxylase (EC 4.1.1.19) and S -adenosylmethionine synthetase (EC 2.5.1.6) activity did not show the same pattern of cell division-related variation. Inhibition of S -adenosylmethionine biosynthesis with methylglyoxal bis-(guanylhydra-zone) (MGBG) reduced cell division in the suspension culture. Inhibitors of ornithine decarboxylase and arginine decarboxylase individually had little effect on cell division, but in combination led to a reduction in cell division. Addition of polyamines and their precursors to cells in the stationary phase of a batch culture cycle led to the induction of expression of a mitotic cyclin sequence ( BvcycII ).