Role of polyamines in the cytokinin-dependent physiological processes II. Modulation of polyamine levels during cytokinin-stimulated expansion of cucumber cotyledons

The cucumber cotyledon expansion test was used as a model system to study a possible relationship between cytokinin and polyamines. When kinetin was applied to excised cotyledons incubated in the dark it caused a marked increase in the activity of arginine decarboxylase. As a result of ADC action, putrescine content also rose markedly, whereas the level of spermidine and spermine decreased. However, inhibition of putrescine biosynthesis with D-arginine did not affect cytokinin promotion growth. Applied alone, putrescine had no significant effect on growth. These results indicate that the large increase in putrescine content that derives from cytokinin treatment cotyledons is not essential for cytokinin-induced expansion of cotyledons. Addition of K⁺ and Ca²⁺ ions to the cotyledons incubated with cytokinin caused a marked reduction in the putrescine level and ADC activity. The higher level of putrescine (35 %) and spermine (62 %) bound to chromatin and the large increase (174 %) in spermidine content bound to ribosomes which derive from cytokinintreated cotyledons in relation to literature data can indicate that these polyamines may play an important role in gene expression during cytokinin-stimulated expansion of cucumber cotyledons. The inhibition of cytokinin effect, viz. enlargement of the cotyledons by inhibitors of spermidine biosynthesis, additionally suggessted a possible involvement of polyamines in cytokinin action.     

Role of polyamines in the cytokinin-dependent physiological processes. I. Effect of benzyladenine on polyamine levels during chloroplast differentiation in the tissue culture of Dianthus caryophyllus

Tissue culture of Dianthus caryophyllus L. (cv. William Sim.) obligatory requiring N⁶-benzyladenine for greening provides a good system to study the interactions between cytokinins and polyamines. Polyamines were analyzed as dansyl derivatives which are separated by thin layer chromatography and detected by fluorescence spectrophotometry. Green callus growing on benzyladenine — containing medium showed decrease in the contents of free, conjugated and bound putrescine and spermidine in comparison to chlorophyll-less callus (control callus) growing on cytokinin-free medium. The level of spermine free, conjugated and bound forms increased about 6 %, 77 % and 28 % respectively in tissue culture growing in the presence of cytokinin. Spermidine was dominant polyamine bound to chromatin isolated from control callus. Chromatin isolated from green callus was characterized by a lower level of each polyamine in comparison to chlorophyll-less callus. Polyamines were found in plastid membrane fraction isolated from chlorophyll-less and green callus. A significant increase the levels of polyamines (putrescine, spermidine and spermine) bound to plastid membranes in green callus (+ benzyladenine) in comparison to chlorophyll-less callus (− benzyladenine) was observed. Additionaly, methylglyoxal-bis(guanylhydrazone) an inhibitor of S-adenosylmethionine decarboxylase depressed the greening process. Our results suggest that cytokinin-induced chloroplast differentiation in carnation tissue culture may be partly mediated through the polyamines bound to thylakoid membranes. A possible role of polyamines during cytokinin-induced formation of photosynthetic apparatus is discussed.     

Polyamines in grapevine microcuttings cultivated in vitro. Effects of amines and inhibitors of polyamine biosynthesis on polyamine levels and microcutting growth and development

The main free amines identified during growth and development of grapevine microcuttings of rootstock 41 B, (Vitis vinifera cv. Chasselas × Vitis berlandieri) cultivated in vitro were agmatine, putrescine, spermidine, spermine, diaminopropane and tyramine (an aromatic amine). Amine composition differed according to tissue, with diaminopropane the major polyamine in the apical parts, internodes and leaves. Putrescine predominated in the roots. There was also a decreasing general polyamine and specific tyramine gradient along the stem from the top to the bottom. Conjugated amines were only found in roots. The application of exogenous amines (agmatine, putrescine, spermidine, tyramine) stimulated development and growth of microcuttings, suggesting that the endogenous concentrations of these amines can be growth limiting. Diaminopropane (the product of oxidation of spermidine or spermine by polyamine oxydases) strongly inhibited microcutting growth and development. -DL-difluoromethylarginine (DFMA), a specific and irreversible inhibitor of the putrescine-synthesizing enzyme, arginine decarboxylase (ADC), led to inhibition of microcutting development. Application of agmatine or putrescine to the inhibited system resulted in a reversal of inhibition indicating that polyamines are involved in regulating the growth and development of grapevine microcuttings. -DL-difluoromethylornithine (DFMO), a specific and irreversible inhibitor of putrescine biosynthesis from ornithine decarboxylase (ODC), had no effect on microcutting development and growth. We propose that ADC regulates putrescine biosynthesis during microcutting development.     

Phytochrome-mediated branch formation in protonemata of the mossCeratodon purpureus

We have analyzed light induction of side-branch formation and chloroplast re-arrangement in protonemata of the mossCeratodon purpureus. After 12 hr of dark adaptation, the rate of branch formation was as low as 5%. A red light treatment induced formation of side branches up to 75% of the dark-adapted protonema. The frequency of light induced branch formation differed between cells of different ages, the highest frequency being found in the 5th cell, the most distal cell studied from the apex. We examined the effect of polarized light given parallel to the direction of filament growth. The position of branching within the cell depended on the vibration plane of polarized red light. Branch formation was highest when the electric vector of polarized light vibrates parallel to the cell surface and is fluence rate dependent. The positional effect of polarized red light could be nullified to some extent by simultaneous irradiation with polarized far-red light. An aphototropic mutant,ptr116, shows characteristics of deficiency in biosynthesis of the phytochrome chromophore and exhibits no red-light induced branch formation. Biliverdin, a precursor of the phytochrome chromophore, rescued the red-light induced branching when added to the medium, supporting the conclusion that phytochrome acts as photoreceptor for red light induced branch formation. The light effect on chloroplast re-arrangement was also analyzed in this study. We found that polarized blue light induced chloroplast re-arrangement in wild-type cells, whereas polarized red light was inactive. This result suggests that chloroplast re-arrangement is only controlled by a blue light photoreceptor, not by phytochrome inCeratodon.     

Effects of inhibitors of polyamine biosynthesis and of polyamines on strawberry microcutting growth and development

The primary free polyamines identified during growth and development of strawberry (Fragaria × ananassa Duch.) microcuttings cultivated in vitro were putrescine, spermidine and spermine. Polyamine composition differed according to tissue and stages of development; putrescine was predominant in aerial green tissues and roots. -DL-difluoromethylarginine (DFMA), a specific and irreversible inhibitor of the putrescine-synthesizing enzyme, arginine decarboxylase (ADC), strongly inhibited growth and development. Application of agmatine or putrescine to the inhibited system resulted in a reversal of inhibition, indicating that polyamines are involved in regulating the growth and development of strawberry microcuttings. -DL-difluoromethylornithine (DFMO), a specific and irreversible inhibitor of putrescine biosynthesis by ornithine decarboxylase, promoted growth and development. We propose that ADC regulates putrescine biosynthesis during microcutting development. The application of exogenous polyamines (agmatine, putrescine, spermidine) stimulated development and growth of microcuttings, suggesting that the endogenous concentrations of these polyamines can be growth limiting.Abbreviations ADC arginine decarboxylase - ODC ornithine decarboxylase - DFMA -difluoromethylarginine - DFMO -difluoromethylornithine - Put putrescine - Spd spermidine - Sp spermine - DW dry weight - PA polyamine - PPF photosynthetic photon flux     

Changes in cell morphology and polyamine composition during growth of Campylobacter jejuni

Resting cells of Campylobacter jejuni were spherical whereas growing cells were mainly spiral. Content of cadaverine increased with the decrease in spherical forms prior to growth commencing but production of spermidine increased in early log phase. Cadaverine and spermidine are possibly involved in changes in cell morphology and growth, respectively.S. Suzuki is with the Faculty of Agriculture, Kochi University, Nankoku, Kochi 783, Japan; Y. Horikoshi and K. Takama are with the Faculty of Fisheries, Hokkaido University, Hakodate, Hokkaido 041, Japan.     

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.     

Role of polyamines on de novo shoot morphogenesis from cotyledons of Brassica campestris ssp. pekinensis (Lour) Olsson in vitro

Summary The promotive effect of ethylene inhibitors (Els), i.e. AgNO₃ and aminoethoxyvinylglycine (AVG) on de novo shoot regeneration from cultured cotyledonary explants of Brassica campestris ssp. pekinensis cv. Shantung in relation to polyamines (PAs) was investigated. The endogenous levels of free putrescine and spermidine in the explant decreased sharply after 1–3 days of culture, whereas endogenous spermine increased, irrespective of the absence or presence of Els. AgNO₃ at 30 M did not affect endogenous PAs during two weeks of culture. In contrast, explants grown on medium containing 5 M AVG produced higher levels of free putrescine and spermine which increased rapidly after three days and reached a peak at 10 days. An exogenous application of 5 mM putrescine also resulted in a similar surge of endogenous free spermine of the explant. More strikingly, shoot regeneration from explants grown in the presence of 1–20 mM putrescine, 0.1–2.5 mM spermidine, or 0.1–1 mM spermine was enhanced after three weeks of culture. However, exogenous PAs generally did not affect ethylene production, and endogenous levels of 1-aminocyclopropane-1-carboxylate (ACC) synthase activity and ACC of the explant. This study shows the PA requirement for shoot regeneration from cotyledons of B. campestris ssp. pekinensis in vitro, and also indicates that the promotive effect of PAs on regeneration may not be due to an inhibition of ethylene biosynthesis.Abbreviations PAs polyamines - AVG aminoethoxyvinylglycine - SAM S-adenosylmethionine - ACC 1-aminocyclopropane-1-carboxylate - Els ethylene inhibitors     

The role of polyamines in potato tuber formation

Summary The involvement of free and conjugated polyamines in tuber formation was studied in in vitro cultured node explants ofSolanum tuberosum cv. Superior. Tubers developed from the axillary buds in 100% of the explants cultured in MS medium containing high sucrose levels and supplemented with kinetin (Kin) and chlorocholine chloride (CCC). The addition of growth regulators was not essential for tuber formation, although smaller tubers were formed in the medium devoid of Kin and CCC. Tuber formation was inhibited in about 75% of node explants treated with 0.5 mM difluoromethylornithine (DFMO), a specific and irreversible inhibitor of ornithine decarboxylase. The inhibitory effect of DFMO was almost completely reversed by putrescine addition. Addition of difluoromethylarginine (DFMA), the analogous inhibitor of arginine decarboxylase, had no effect on tuber formation. DFMO, but not DFMA, also inhibited the development of axillary buds into shoots in light-grown node explants. Aminooxyphenylpropionic acid (0.1 to 0.25 mM), an inhibitor of phenylalanine ammonia lyase, caused a sharp reduction in cinnamoyl putrescines, but had no effect on tuber formation. Our results suggest that hydroxycinnamic acids are not causal in tuber formation but may serve as polyamine storage pools. Our findings support the hypothesis that polyamines derived via the ornithine decarboxylase-mediated pathway are necessary for tuber formation in vitro, probably at the early phase of morphogenesis involving active cell division.     

Ratio of free to bound polyamines during maturation in mung-bean hypocotyl cells

Free- and bound-polyamine levels were estimated in successive segments of the mung-bean hypocotyl. Three aliphatic polyamines (putrescine, spermidine and spermine) were found in proportions which depended on the state of maturation. In young cells, most of the polyamines were located in the protoplasm whereas in older cells they were mostly bound to the cell walls. Spermidine was always the main bound polyamine, and putrescine, the main free polyamine.Abbreviation EDTA ethylenediaminetetraacetic acid     

Changes in endogenous polyamines during the formation of somatic embryos from isogenic lines of Dactylis glomerata L. with different regenerative capacities

The endogenous levels of polyamines (PAs) in leaf-base explants isolated from plants of two isogenic lines of Dactylis glomerata L., differing in their competence for somatic embryogenesis, were compared. Leaf-bases isolated from plants with a high level of competence for somatic embryogenesis (HEC) contained four times the level of polyamines compared to those isolated from plants with a low level of competence for somatic embryogenesis (LEC). When the levels of individual polyamines in the HEC and LEC lines were compared, leaf-bases from plants of the HEC line had much lower PUT/SPD ratios than those from the LEC line. When changes in the levels of PAs were monitored during the first 28 d of culture, on a medium which promotes initiation of somatic embryogenesis, leaf-base cultures from plants of the HEC line showed a 50% increase in the levels of PAs during the first 7 d of culture, after which time levels began to decline. By day 21, levels had dropped below those found in freshly isolated leaf bases. While PUT and SPM levels increased by about 30%, the greatest increase was shown by SPD, which increased by more than 100% during the first 7 d of culture, before declining. In contrast much smaller changes in PA levels were found when leaf-bases from plants of the LEC line were cultured.     

Changes in polyamine content, arginine and ornithine decarboxylases and transglutaminase activities during light/dark phases (of initial differentiation) in maize calluses and their chloroplasts

Maize calluses and their isolated chloroplasts were analysed to study the changes in polyamine content, arginine and ornithine decarboxylases and transglutaminase activities during light/dark phases of the first day after subculture in maintenance medium (containing 2,4-D) and differentiation medium (without 2,4-D). Free polyamine content changed significantly in both differentiating calluses and chloroplasts showing a maximum during light phase and also increasing after mid-dark phase. Acid-insoluble polyamines showed a similar trend. In whole cells from the callus cultured in maintenance medium, the changes were not significant, except for free putrescine which increased in the dark phase. In chloroplasts of both types of calluses, the trend was similar. Arginine decarboxylase activity in vitro assayed in optimal conditions was not affected by hormone deprivation either in whole cells from the callus or in chloroplasts. The formation of putrescine by arginine decarboxylase activity gradually increased in the light until 9–12 h after subculture, whereas at the onset of the dark phase, a significant decrease was observed. Ornithine decarboxylase activity in vitro always showed slight changes, except in growing callus where putrescine synthesis increased abruptly at 8 h and decreased thereafter. Transglutaminase was immunodetected in whole cells from the callus and in isolated chloroplasts by western blot. In the entire cells, protein substrates were found which were not present in isolated chloroplast. Transglutaminase activity was light sensitive and also affected by hormone deprivation. This enzyme was more active in differentiation than in maintenance medium, in both callus and chloroplasts, in light and dark phases. These data indicate that, the parameters studied here are not only light affected but also regulated by a daily rhythm.     

Differential in vitro development of inflorescences in long and short day Lemna spp.: involvement of ethylene and polyamines

In vitro-development of Lemna inflorescences on minimal medium is known to differ in long day (LDP) and short day (SDP) plants (Z. Pfl, physiol. 77, 395). In LDP pistil growth predominates, while in SDP stamen growth predominates. This indicates that LDP and SDP inflorescences differ in endogenous hormones and depend for a balanced male-female development on different plant-supplied factors (Z. Pfl. physiol. 80, 283 and 298). Here inflorescences of the LDP L. gibba and the SDP L. aequinoctialis were tested for differences in ethylene-polyamine (PA) relations, as ethylene and PAs are inversely related (shared precursor, mutual inhibition of synthesis), and exogenous ethylene has been shown previously to restore male-female balance in SDP inflorescences (Z. Pfl. physiol. 80, 283). Promotion of pistil or stamen growth indicates a predominance of ethylene and PAs in LDP and SDP, respectively. Hence, in LDP, exogenous PAs and inhibitors of ethylene synthesis, and in SDP, an inhibitor of PA-synthesis, were applied to restore the male-female balance in vitro. In L. aequinoctialis (SDP), application of methylglyoxal-bis(guanylhydrazone) (MGBG), an inhibitor of spermidine (SD) synthesis, resulted in near normal development via stamen inhibition and/or pistil promotion. In L. gibba (LDP), ethylene inhibition was effective, especially by aminoethoxyvinylglycine (AVG), which reduced pistil growth. Effects of alpha-aminooxyacetic acid (AOA) were less clear. Putrescine (PUT) promoted stamen growth under certain circumstances, perhaps acting as a precursor for the more active SD. SD effects were concentration-dependent for pistil and stamen. Most importantly, increases in SD turned pistil promotion into inhibition and almost normalised floral development. Spermine (SM) enhanced stamen growth. Results are conclusive that PA-ethylene relationships are involved in inflorescence development in a contrasting manner in LDP and SDP. It is apparent that in whole plants the LDP supplies the inflorescences with factors inhibiting ethylene and/or stimulating PA-synthesis. In SDP the converse is true.     

Changes in dormancy levels ofFraxinus excelsior L. embryos at different stages of morphological and physiological maturity

The dormancy status ofFraxinus excelsior embryos at different developmental stages under environmental conditions was examined over a period of 2 years. For each sampling date the length of the fruit, of the seed, and of the embryo were measured, and the embryological stage determined. The depth of dormancy was assayed by the germination behaviour of isolated embryos under aseptic conditions on an agar medium without nutrients. As an approach towards a quantitative estimate of the dormancy status, the degree of inhibiton of germinative growth in the embryonic organs was evaluated on the basis of four categories from none to full germinative growth. From these ratings a dormancy index was calculated, expressing the mean dormancy status of the embryos at a given date. Embryo dormancy already became apparent during embryogenesis and reached its highest level during the later phase of reserve deposition in the seed. A marked loss of embryo dormancy occurred during the phase of maturation drying in autumn, followed by a moderate increase in winter. In hydrated seeds in spring the embryo was gradually released from dormancy and enlarged further. In maintaining the embryo ofF. excelsior in a developmental but not germinative mode, dormancy mechanisms within the embryo and the endosperm, combined with environmental factors, may be involved.     

Changes in endogenous cyanide and 1-aminocyclopropane-1-carboxylic acid levels during the hypersensitive response of tobacco mosaic virus-infected tobacco leaves

Leaves of Nicotiana tabacum L. cv. Xanthi necroticum plants form local necrotic lesions at the site of infection by tobacco mosaic virus. During the first seven days post-inoculation, endogenous levels of 1-aminocyclopropane-1-carboxylic acid (ACC) and N-malonyl-ACC increased in the lesion area. The time course of ACC accumulation coincided with an increase in the endogenous cyanide level which began within two days after inoculation. Concomitantly, the activity of -cyanoalanine synthase, the main HCN detoxifying enzyme, decreased. Likewise, treatment of leaf discs of uninfected plants with ACC led to cyanide accumulation. Exogenously applied KCN caused necrotic spots on tobacco leaves very similar to the whitish centers of virus-induced local lesions. Possible implications of cyanide in cell death during TMV-induced lesion development are discussed.     

Role of rhizomes in tussock formation byCarex thunbergii var.Appendiculata

Several types of tussock formed byCarex thunbergii var.appendiculata were compared with respect to the growth pattern of their rhizomes at various developmental stages at Benten Marsh in Yufutsu Mire, Hokkaido, Japan. The rhizomes were classified into three types based on their function: 1, very short rhizomes; 2, intermediate-length rhizomes which grow upwards to raise the shoot base; 3, long rhizomes which grow horizontaly to spread the plant. The extent of development of the tussock and the total length of rhizomes per shoot was inversely related with the number of Type 3 rhizomes, and positively related with Types 1 and 2 rhizomes. The tussock was made of dead roots, dead rhizomes and much litter, which provided a substitute for soil for the rhizomes and absorbing roots. The growth conditions of theCarex changed from aerobic and eutrophic to anoxic and oligotrophic with tussock development. It is concluded that the tussock is adaptive to anoxic conditions.     

Polyamine levels as related to growth,differentiation and senescence in protoplast-derived cultures of Vigna aconitifolia and Avena sativa

We have previously reported that aseptically cultured mesophyll protoplasts of Vigna divide rapidly and regenerate into complete plants, while mesophyll protoplasts of Avena divide only sporadically and senesce rapidly after isolation. We measured polyamine titers in such cultures of Vigna and Avena, to study possible correlations between polyamines and cellular behavior. We also deliberately altered polyamine titer by the use of selective inhibitors of polyamine biosynthesis, noting the effects on internal polyamine titer, cell division activity and regenerative events.In Vigna cultures, levels of free and bound putrescine and spermidine increased dramatically as cell division and differentiation progressed. The increase in bound polyamines was largest in embryoid-forming callus tissue while free polyamine titer was highest in root-forming callus. In Avena cultures, the levels of total polyamines decreased as the protoplast senesced. The presence of the inhibitors -difluoromethyl-arginine (specific inhibitor of arginine decarboxylase) and dicyclohexylamine (inhibitor of spermidine synthase) reduced cell division and organogenesis in Vigna cultures. Addition of low concentration of polyamines to such cultures containing inhibitors or removal of inhibitors from the culture medium restored the progress of growth and differentiation with concomitant increase in polyamine levels.     

Oxidative stress and fluctuations of free and conjugated polyamines in the halophyte Mesembryanthemum crystallinum L. under NaCl salinity

The accumulation of conjugated and free polyamines in plants is very important for their protection against oxidative stress induced by abiotic factors. In the present study, the species halophytic plant Mesembryanthemum crystallinum L. was used as a model system in which the process of Crassulacean Acid Metabolism induction is linked with oxidative stress, especially under salinity conditions. A comparative analysis of the content of free polyamines, perchloric (PCA)-soluble and PCA-insoluble conjugated polyamines in mature leaves and roots was carried out with plants exposed to salinity. It was found that adult leaves and roots under normal conditions or salinity (400 mM NaCl) contained all types of free polyamines (putrescine, spermidine, spermine, and cadaverine). In leaves only PCA-insoluble conjugates were found, which showed a tendency to grow with increased duration of salt action (1.5–48 h). In contrast to leaves, in roots all forms of polyamine conjugates (PCA-soluble and -insoluble) were detected. However, the formation of all conjugates, especially PCA-soluble forms in roots, was sharply inhibited by salt shock (400 mM NaCl, 1.5 h) or exogenous cadaverine (1 mM) treatment. PCA-soluble conjugates of cadaverine in roots were found only when the treatment was carried out in combination with aminoguanidine (1 mM), as a result of diamine oxidase inhibition and consequently a decreasing of H₂O₂ production in plant cells. The activation of diamine oxidase and guaiacol peroxidase by NaCl or exogenous cadaverine was observed in leaves and roots. Thus, the activation of oxidative degradation of polyamines combined with H₂O₂–peroxidase reaction in cells are involved in the regulation of free and conjugated polyamines titers under salinity.