Activation of MAPK homologues by elicitors in tobacco cells

Elicitors of plant defence reactions (such as cryptogein, an elicitin produced by Phytophthora cryptogea , or oligogalacturonides (OGs)), induced in tobacco cell suspensions ( Nicotiana tabacum var Xanthi) a rapid and transient activation of two protein kinases (PKs) with apparent molecular masses of 50 and 46 kDa, respectively. These PKs activated and phosphorylated at tyrosine residues, phosphorylated myelin basic protein (MBP) at serine/threonine residues. Both are recognized by anti-MAPK antibodies. The two MBP kinases possessed the same kinetics of activation, and their activation depended, to the same extent, on different exogenously applied compounds (staurosporine, lanthanum, EGTA). We demonstrate here that the activation of the MBP kinases is calcium dependent and sensitive to staurosporine, a protein kinase inhibitor which annihilates all known responses of tobacco cells to cryptogein. The activation of MBP kinases appeared to be independent of the production of active oxygen species (AOS) and insensitive to calyculin A, a protein phosphatase type 1 and 2A inhibitor. The activation of MAPKs is discussed in relation to the early responses induced by cryptogein.     

Differential induction of chorismate mutase isoforms by elicitors in oat leaves

Avenanthramides, a series of substituted cinnamic acid amides with anthranilate, are phytoalexins in oats (Avena sativa L.). The precursors of avenanthramides, cinnamate and anthranilate, are biosynthesized via the shikimate pathway that branches at chorismate. Chorismate mutase (CM, EC 5.4.99.5) is the first enzyme on the branch that provides the cinnamate part of avenanthramides. The induction of CM was investigated in primary oat leaves using oligo-N-acetylchitooligosaccharides as elicitors. The CM activity started to increase 6 h after elicitation, and reached a maximum by 9 h, being around twice as large as that in control leaves. Among the oligo-N-acetylchitooligosaccharides tested, tetra-, penta-, and hexasaccharides effectively induced the CM activity in a dose-dependent manner. The activity was separated into two major peaks on anion exchange chromatography with Mono Q, indicating that at least two CM isoforms are present in oat leaves. A comparison of elution profiles of CM activity in intact and elicitor-treated leaves revealed that only one CM isoform is responsive to the elicitor. Two CM isoforms in oat leaves were partially purified and characterized. Both CM isoforms were insensitive to l-phenylalanine, l-tyrosine, l-tryptophan, and caffeate. The fractionation of oat cells indicated that both CM isoforms localized in plastids.     

Nonspecific elicitation of defense reaction in suspension tobacco cells by elicitors fromArmillaria

Ergosterol and chitin oligomers were detected in water extracts from Armillaria gallica, A. cepistipes, A. tabescens, A. ostoyae and A. mellea containing as active components elicitors able to trigger early events of defense reaction in suspension tobacco cells. More virulent strains of A. ostoyae and A. mellea had the same ability of elicitation as weak pathogens A. gallica, A. cepistipes, A. tabescens. The elicitation of the defense reaction early events by chitin oligomers was markedly enhanced by ergosterol probably due to the activation of several signal pathways.     

Calcium signatures and signaling in cytosol and organelles of tobacco cells induced by plant defense elicitors

Calcium signatures induced by two elicitors of plant defense reactions, namely cryptogein and oligogalacturonides, were monitored at the subcellular level, using apoaequorin-transformed Nicotiana tabacum var Xanthi cells, in which the apoaequorin calcium sensor was targeted either to cytosol, mitochondria or chloroplasts. Our study showed that both elicitors induced specific Ca(2+) signatures in each compartment, with the most striking difference relying on duration. Common properties also emerged from the analysis of Ca(2+) signatures: both elicitors induced a biphasic cytosolic [Ca(2+)] elevation together with a single mitochondrial [Ca(2+)] elevation concomitant with the first cytosolic [Ca(2+)] peak. In addition, both elicitors induced a chloroplastic [Ca(2+)] elevation peaking later in comparison to cytosolic [Ca(2+)] elevation. In cryptogein-treated cells, pharmacological studies indicated that IP(3) should play an important role in Ca(2+) signaling contrarily to cADPR or nitric oxide, which have limited or no effect on [Ca(2+)] variations. Our data also showed that, depending on [Ca(2+)] fluxes at the plasma membrane, cryptogein triggered a mitochondrial respiration increase and affected excess energy dissipation mechanisms in chloroplasts. Altogether the results indicate that cryptogein profoundly impacted cell functions at many levels, including organelles.     

Effect of volatile methyl jasmonate on the oxylipin pathway in tobacco, cucumber, and arabidopsis.

The effect of atmospheric methyl jasmonate on the oxylipin pathway was investigated in leaves of tobacco (Nicotiana tabacum L.), cucumber (Cucumis sativa L.), and Arabidopsis thaliana (L.). Differential sensitivities of test plants to methyl jasmonate were observed. Thus, different concentrations of methyl jasmonate were required for induction of changes in the oxylipin pathway. Arabidopsis was the least and cucumber the most sensitive to methyl jasmonate. Methyl jasmonate induced the accumulation of lipoxygenase protein and a corresponding increase in extractable lipoxygenase activity. Atmospheric methyl jasmonate additionally induced hydroperoxide lyase activity and the enhanced production of several volatile six-carbon products. It is interesting that lipid hydroperoxidase activity, which is a measure of hydroperoxide lyase plus allene oxide synthase plus possibly other lipid hydroperoxide-metabolizing activities, was not changed by methyl jasmonate treatment. Methyl jasmonate selectively altered the activity of certain enzymes of the oxylipin pathway (lipoxygenase and hydroperoxide lyase) and increased the potential of leaves for greatly enhanced six-carbon-volatile production.     

Proteinaceous and oligosaccharidic elicitors induce different calcium signatures in the nucleus of tobacco cells

We previously reported elevated cytosolic calcium levels in tobacco cells in response to elicitors [D. Lecourieux, C. Mazars, N. Pauly, R. Ranjeva, A. Pugin, Analysis and effects of cytosolic free calcium elevations in response to elicitors in Nicotiana plumbaginifolia cells, Plant Cell 14 (2002) 2627-2641]. These data suggested that in response to elicitors, Ca2+, as a second messenger, was involved in both systemic acquired resistance (RSA) and/or hypersensitive response (HR) depending on calcium signature. Here, we used transformed tobacco cells with apoaequorin expressed in the nucleus to monitor changes in free nuclear calcium concentrations ([Ca2+](nuc)) in response to elicitors. Two types of elicitors are compared: proteins leading to necrosis including four elicitins and harpin, and non-necrotic elicitors including flagellin (flg22) and two oligosaccharidic elicitors, namely the oligogalacturonides (OGs) and the beta-1,3-glucan laminarin. Our data indicate that the proteinaceous elicitors induced a pronounced and sustainable [Ca2+](nuc) elevation, relative to the small effects of oligosaccharidic elicitors. This [Ca2+](nuc) elevation, which seems insufficient to induce cell death, is unlikely to result directly from the diffusion of calcium from the cytosol. The [Ca2+](nuc) rise depends on free cytosolic calcium, IP3, and active oxygen species (AOS) but is independent of nitric oxide.     

Cytoplasmic acidification as an early phosphorylation-dependent response of tobacco cells to elicitors

Elicitor-induced cytoplasmic pH changes of tobacco (Nicotiana tabacum L. cv. Xanthi) cells grown in suspension cultures were explored under a variety of conditions by using a flexible technique based on the distribution of [¹⁴C] benzoic acid between the intracellular and extracellular compartments. Comparison of data obtained by this technique and by ³¹P-nuclear magnetic resonance spectrometry qualifies the benzoic acid distribution method as a convenient and reliable way to probe cytoplasmic pH variations. Various elicitors shown to induce several defense-related responses in tobacco cells, namely oligogalacturonides of degree of polymerization 7–20, pectolyase from Aspergillus japonicus, Phytophthora megasperma crude elicitors and purified cryptogein, triggered cytoplasmic acidifications differing in intensity and kinetics according to the signal molecule. In contrast, no changes in cytoplasmic protons and external pH were observed in cells treated with short galacturonide oligomers, or with soybean-specific hepta -glucoside from P. megasperma, which are devoid of elicitor activity in tobacco cells. The oligogalacturonide-induced cytoplasmic acidification was inhibited by two structurally unrelated protein kinase inhibitors, staurosporine and 6-dimethylaminopurine, which both reduced the external alkalinization response to the elicitor. The protein phosphatase inhibitor calyculin A alone behaved as an elicitormimicking molecule in triggering cytoplasmic acidification, again associated with extracellular alkalinization. These results indicate that the increase in the cytoplasmic concentration of protons may be considered as a common early intracellular response of tobacco cells to elicitors, associated with the extracellular alkalinization response and controlled by protein phosphorylation.Abbreviations BA(H) benzoic acid (protonated form) - 6-DMAP 6-dimethylaminopurine - DP degree of polymerization - Mes 2-(N-morpholino)ethanesulfonic acid - OG oligogalacturonide - pHc cytoplasmic pH - ³¹P-NMR nuclear magnetic resonance spectroscopy of ³¹P atoms The authors thank P. Albersheim (CCRC, Athens, Georgia, USA) for providing the purified oligogalacturonides and the hepta -glucoside and P. Ricci (INRA, Antibes, France) for providing the purified cryptogein.     

Differential effects of elicitors on the viability of rice suspension cells

We have compared the effects of two elicitors of defense-related processes on rice (Oryza sativa L.) suspension cells. Both chitosan and salicylic acid induced the accumulation of extracellular chitinase, thickening of the cell wall, and a variety of cytological changes in treated cells. Chitosan also induced the production of a brown pigment and cell death. Both of these effects depended on the availability of reactive oxygen species, because the damage was greatly reduced by either catalase or free-radical scavengers. Pretreating cells with salicylic acid also protected them from the cytotoxic effects of chitosan. This type of induced tolerance persisted when salicylic acid was removed and was not simply due to the release of extracellular substances, because salicylic acid-treated cells did not protect untreated cells from chitosan-induced death. Salicylic acid also stimulated the production of a 10-kilodalton subtilisin inhibitor that was not produced by chitosan-treated cells. Most of these changes are associated with the hypersensitive response of many plant species, including monocotyledons, and may serve as an in vitro model for investigating the biochemistry of some diseases.     

Differential mercury volatilization by tobacco organs expressing a modified bacterial merA gene

INTRODUCTIONEnvironmental pollution is an increasing prob-lem both fOr developing and developed countries.Mercury, both in organic and ionic fOrm, is one of themost hazardous pollutants among the heavy met-als[l]and its accumuIation in human body results ininactivation of metabolic enzymes and structuralproteins[2, 3] giving rise to serious health problems(Minamatasyndrome).Usually mercury pollution is caused by indus-trial and agricultural activities, releasing mercuryinto air, water an…     

Early responses of tobacco suspension cells to rhizobacterial elicitors of induced systemic resistance

Colonization of roots by selected strains of fluorescent Pseudomonas spp. can trigger induced systemic resistance (ISR) against foliar pathogens in a plant species-specific manner. It has been suggested that early responses in cell suspension cultures in response to rhizobacterial elicitors, such as generation of active oxygen species (AOS) and extracellular medium alkalinization (MA), are linked to the development of ISR in whole plants. Perception of flagellin was demonstrated to elicit ISR in Arabidopsis, and bacterial lipopolysaccharides (LPS) have been shown to elicit several defense responses and to act as bacterial determinants of ISR in various plant species. In the present study, the LPS-containing cell walls, the pyoverdine siderophores, and the flagella of Pseudomonas putida WCS358, P. fluorescens WCS374, and P. fluorescens WCS417, which are all known to act as elicitors of ISR in selected plant species, were tested for their effects on the production of AOS, MA, elevation of cytoplasmic Ca(2+) ([Ca(2+)](cyt)), and defense-related gene expression in tobacco suspension cells. The LPS of all three strains, the siderophore of WCS374, and the flagella of WCS358 induced a single, transient, early burst of AOS, whereas the siderophores of WCS358 and WCS417 and the flagella of WCS374 and WCS417 did not. None of the compounds caused cell death. Once stimulated by the active compounds, the cells became refractory to further stimulation by any of the active elicitors, but not to the elicitor cryptogein from the oomycete Phytophthora cryptogea, indicating that signaling upon perception of the different rhizobacterial compounds rapidly converges into a common response pathway. Of all compounds tested, only the siderophores of WCS358 and WCS417 did not induce MA; the flagella of WCS374 and WCS417, although not active as elicitors of AOS, did induce MA. These results were corroborated by using preparations from relevant bacterial mutants. The active rhizobacterial elicitors led to a rapid increase in [Ca(2+)](cyt), peaking at 6 min, whereas the inactive siderophores of WCS358 and WCS417 elicited a single spike at 1 min. Elicitation of the cells by cell-wall LPS of WCS358 or the siderophore of WCS374 induced a weak, transient expression of several defense-related genes, including PAL and GST. The spectrum of early responses of the suspension cells was not matched by the expression of ISR in whole tobacco plants against Erwinia carotovora pv. carotovora. Of the live bacterial strains, only WCS358 elicited significant ISR, but application of the LPS or the siderophore of all three strains also elicited ISR. Notably, the absence of elicitation of AOS and MA in suspension-cultured cells but induction of ISR in whole plants by the siderophore of WCS358, which was lost upon treatment with the siderophore-minus mutant of WCS358, indicates that the early responses in suspension cells are not predictive of the ability to induce ISR in whole plants. Possible explanations for these discrepancies are discussed.     

Differential expression of the potato proteinase inhibitor II promoter in transgenic tobacco

We studied temporal and spatial expression patterns of the potato proteinase inhibitor II (PI-II) promoter, using transgenic tobacco (Nkotiana tabacum L cv. Xanthi) plants that carried a fusion between the PI-II promoter and the chloramphenicol acetyltransferase (cat) gene. Pl-ll promoter activity was low when plants were young, but increased as plants grew. In 8-week-old plants, old leaves showed higher activity than young leaves. At flowering stage (ca. 15 weeks), the overall promoter activity was reduced to a lower level except in the petals. Compared with stems or petioles at the flowering stage, the roots and floral organs showed minimal activity for the Pl-ll promoter. We used several environmental stimuli to examine the induction of the Pl-ll promoter in different organs. Promoter induction was effected by wounding or methyl jasmonate in stems, petioles, sepals, and leaves. The induction was highest in leaves, as was sucrose-enhanced wound induction. These results suggest that the Pl-ll gene is temporally and spatially regulated. We also established a transient assay system in tobacco BY2 suspension cells to elucidate the upstream regulatory region of the Pl-ll promoter. A field strength of 0.75 kV/cm and 400 μF capacitance were optimal electroporation conditions for our transient assay.     

Involvement of reactive oxygen species in the induction of (S)-N-p-coumaroyloctopamine accumulation by beta-1,3-glucooligosaccharide elicitors in potato tuber tissues

Treatment of potato tuber tissues with beta-1,3-glucooligosaccharide induces accumulation of (S)-N-p-coumaroyloctopamine (p-CO). We examined the role of reactive oxygen species (ROS) and nitric oxide (NO) in the signal transduction leading to p-CO accumulation. Induction was suppressed by an NADPH-oxidase inhibitor, diphenyleneiodonium chloride, and oxygen radical scavengers. H2O2 was generated in the tuber tissue within a few minutes of treatment with beta-1,3-glucooligosaccharide. On the other hand, treatment with NO specific scavenger, nitric oxide synthase inhibitor, and serine protease inhibitor did not inhibit p-CO induction. Our findings suggest that ROS generated by the action of NADPH-oxidase play an important role in this system, while NO and serine protease are unlikely to be involved in this process.     

Adducts of oxylipin electrophiles to glutathione reflect a 13 specificity of the downstream lipoxygenase pathway in the tobacco hypersensitive response

The response to reactive electrophile species (RES) is now considered as part of the plant response to pathogen and insect attacks. Thanks to a previously established high-performance liquid chromatography tandem mass spectrometry methodology, we have investigated the production of oxylipin RES adducts to glutathione (GSH) during the hypersensitive response (HR) of plants. We have observed that RES conjugation to GSH in tobacco (Nicotiana tabacum) leaves is facile and nonspecific. In cryptogein-elicited tobacco leaves, we show that the oxylipin RES adducts to GSH are produced in correlation with GSH consumption, increase in glutathione S-transferase activity, and the appearance of the cell death symptoms. In this model, the adducts arise mainly from the downstream 13 lipoxygenase (LOX) metabolism, although the induced 9 LOX pathway leads massively to the accumulation of upstream metabolites. The main adducts were obtained from 2-hexenal and 12-oxo-phytodienoic acid. They accumulate transiently as 1-hexanol-3-GSH, a reduced adduct, and 12-oxo-phytodienoic acid-GSH, respectively. RES conjugation does not initiate cell death but explains part of the GSH depletion that accompanies HR cell death. The nature of these GSH conjugates shows the key role played by the 13 LOX pathway in RES signaling in the tobacco HR.     

Differential activation of four specific MAPK pathways by distinct elicitors

Plant cells respond to elicitors by inducing a variety of defense responses. Some of these reactions are dependent on the activity of protein kinases. Recently, mitogen-activated protein kinases (MAPKs) have been identified to be activated by fungal and bacterial elicitors as well as by pathogen infection. In gel kinase assays of alfalfa cells treated with yeast cell wall-derived elicitor (YE) revealed that 44- and 46-kDa MAPKs are rapidly and transiently activated. Immunokinase assays with specific MAPK antibodies revealed that YE mainly activated the 46-kDa SIMK and the 44-kDa MMK3 and to a lesser extent the 44-kDa MMK2 and SAMK. When cells were treated with chemically defined elicitors potentially contained in the YE (chitin and N-acetylglucosamine oligomers, beta-glucan, and ergosterol), the four MAPKs were found to be activated to different levels and with different kinetics. Whereas SIMK and SAMK have been found to be activated by a number of diverse stimuli, MMK3 is activated during mitosis and was therefore assumed to participate in cell division (). No physiological process could be associated with MMK2 activity so far. This is the first report that MMK2 and MMK3 can be activated by external stimuli. Overall, our findings indicate that plant cells can sense different cues of a given microorganism through the activation of multiple MAPKs.     

Differential distribution of the lipoxygenase pathway enzymes within potato chloroplasts

The lipoxygenase pathway is responsible for the production of oxylipins, which are important compounds for plant defence responses. Jasmonic acid, the final product of the allene oxide synthase/allene oxide cyclase branch of the pathway, regulates wound-induced gene expression. In contrast, C6 aliphatic aldehydes produced via an alternative branch catalysed by hydroperoxide lyase, are themselves toxic to pests and pathogens. Current evidence on the subcellular localization of the lipoxygenase pathway is conflicting, and the regulation of metabolic channelling between the two branches of the pathway is largely unknown. It is shown here that while a 13-lipoxygenase (LOX H3), allene oxide synthase and allene oxide cyclase proteins accumulate upon wounding in potato, a second 13-lipoxygenase (LOX H1) and hydroperoxide lyase are present at constant levels in both non-wounded and wounded tissues. Wound-induced accumulation of the jasmonic acid biosynthetic enzymes may thus commit the lipoxygenase pathway to jasmonic acid production in damaged plants. It is shown that all enzymes of the lipoxygenase pathway differentially localize within chloroplasts, and are largely found associated to thylakoid membranes. This differential localization is consistently observed using confocal microscopy of GFP-tagged proteins, chloroplast fractionation, and western blotting, and immunodetection by electron microscopy. While LOX H1 and LOX H3 are localized both in stroma and thylakoids, both allene oxide synthase and hydroperoxide lyase protein localize almost exclusively to thylakoids and are strongly bound to membranes. Allene oxide cyclase is weakly associated with the thylakoid membrane and is also detected in the stroma. Moreover, allene oxide synthase and hydroperoxide lyase are differentially distributed in thylakoids, with hydroperoxide lyase localized almost exclusively to the stromal part, thus closely resembling the localization pattern of LOX H1. It is suggested that, in addition to their differential expression pattern, this segregation underlies the regulation of metabolic fluxes through the alternative branches of the lipoxygenase pathway.