RNAi of the sesquiterpene cyclase gene for phytoalexin production impairs pre- and post-invasive resistance to potato blight pathogens

Potato antimicrobial sesquiterpenoid phytoalexins lubimin and rishitin have been implicated in resistance to the late blight pathogen, Phytophthora infestans and early blight pathogen, Alternaria solani. We generated transgenic potato plants in which sesquiterpene cyclase, a key enzyme for production of lubimin and rishitin, is compromised by RNAi to investigate the role of phytoalexins in potato defence. The transgenic tubers were deficient in phytoalexins and exhibited reduced post-invasive resistance to an avirulent isolate of P. infestans, resulting in successful infection of the first attacked cells without induction of cell death. However, cell death was observed in the subsequently penetrated cells. Although we failed to detect phytoalexins and antifungal activity in the extract from wild-type leaves, post-invasive resistance to avirulent P. infestans was reduced in transgenic leaves. On the other hand, A. solani frequently penetrated epidermal cells of transgenic leaves and caused severe disease symptoms presumably from a deficiency in unidentified antifungal compounds. The contribution of antimicrobial components to resistance to penetration and later colonization may vary depending on the pathogen species, suggesting that sesquiterpene cyclase-mediated compounds participate in pre-invasive resistance to necrotrophic pathogen A. solani and post-invasive resistance to hemibiotrophic pathogen P. infestans.     

Enhanced production of antimicrobial sesquiterpenes and lipoxygenase metabolites in elicitor-treated hairy root cultures of Solanum tuberosum

Potato (Solanum tuberosum) hairy root cultures, established by infecting potato tuber discs with Agrobacterium rhizogenes, were used as a model system for the production of antimicrobial sesquiterpenes and lipoxygenase (LOX) metabolites. Of the four sesquiterpene phytoalexins (rishitin, lubimin, phytuberin and phytuberol) detected in elicitor-treated hairy root cultures, rishitin (213 g g^–1 dry wt) was the most predominant followed by lubimin (171 g g^–1 dry wt). The elicitors also induced LOX activity (25-fold increase) and LOX metabolites, mainly 9-hydroxyoctadecadienoic acid and 9-hydroxyoctadecatrienoic acid, in potato hairy root cultures. The combination of fungal elicitor plus cyclodextrin was the most effective elicitor treatment, followed by methyl jasmonate plus cyclodextrin in inducing sesquiterpenes and LOX metabolites.     

An ATP-binding cassette multidrug-resistance transporter is necessary for tolerance of Gibberella pulicaris to phytoalexins and virulence on potato tubers

The necrotrophic pathogen Gibberella pulicaris infects potato tubers through wounds that contain fungitoxic secondary metabolites such as the phytoalexins rishitin and lubimin. In order to colonize tuber tissue, the fungus must possess a mechanism to tolerate potato defense compounds. In this paper, we show that a gene, Gpabc1, that codes an ATP-binding cassette (ABC) transporter is required for tolerance to these phytoalexins and for virulence on potato. The Gpabc1 gene, isolated in the course of a differential cDNA screen, shares high sequence homology with the ABC1 gene of Magnaporthe grisea. G. pulicaris mutants deficient in Gpabc1 were still able to metabolize rishitin but lost their tolerance to this phytoalexin as well as their virulence on potato. These results strongly suggest that the Gpabc1-encoded ABC transporter is necessary for tolerance of G. pulicaris to rishitin and that this tolerance is required for virulence on potato.     

Studies on the biosynthesis and metabolism of the phytoalexin lubimin and related compounds in Datura stramonium L.

Arachidonic acid, cellulase, CuSO₄, a sonicate of Phytophthora infestans mycelium and a spore suspension of Penicillium chrysogenum all elicited the formation of the sesquiterpenoid phytoalexins lubimin, 3-hydroxylubimin and rishitin in fruit cavities of Datura stramonium. 3-Hydroxylubimin was the predominant phytoalexin formed after treatment of the fruits with arachidonic acid, cellulase and the P. infestans preparation. Copper sulphate was a potent elicitor of lubimin but not 3-hydroxylubimin. The fungus P. chrysogenum metabolized lubimin and 3-hydroxylubimin to 15-dihydrolubimin and 3-hydroxy-15-dihydrolubimin respectively, both in fruit cavities inoculated with spores of this fungus and in pure culture. The 15-dihydrolubimin formed in the fruits by the fungus was further metabolized (by the fruits) to both isolubimin and 3-hydroxy-15-dihydrolubimin. The precursor-product relationships between all of the subject compounds was investigated by feeding experiments with ³H-labelled compounds. 2-Dehydro-[15-³H₁]lubimin was rapidly and efficiently incorporated into lubimin and may be the direct precursor of lubimin in planta. 3-Hydroxy[2-³H₁]lubimin was incorporated into the nor-eudesmane rishitin but 10-epi-3-hydroxy[2-³H₁]lubimin was not. An updated scheme for the biosynthesis and metabolism of lubimin and related compounds in infected tissues of solanaceous plants is presented.We thank Mr Vic Swetez for the provision of plant material, Mrs Margaret Huffee for technical assistance, Dr David Ewing for help with obtaining NMR spectra, and the Agricultural and Food Research Council for financial support.     

Sexual fertility of fortyFusarium strains from the EuropeanFusarium sambucinum project

Fungus strains designated asFusarium sambucinum, F. torulosum, orFusarium sp. nov. were crossed withMAT1-1 andMAT1–2 tester strains ofGibberella pulicaris. Of the 40 field strains that were crossed with the tester strains, 13 strains produced fertile crosses and 27 strains did not produce fertile crosses. One strain designated asF. torulosum was fertile with a tester strain ofG. pulicaris, suggesting that this is an intraspecies cross and that the strain isG. pulicaris, and, consequently,F. sambucinum rather thanF. torulosum. The lack of fertile crosses between tester strains and 27 of the 40 field strains suggests that these strains are notG. pulicaris. Although the ability to form a fully fertile cross with a tester strain can determine the species of a fertile strain, it is more problematic to exclude a strain only because it is infertile.     

Biochemical reactions of different tissues of potato (Solanum tuberosum) to zoospores or elicitors from Phytophthora infestans

The time courses of sesquiterpenoid phytoalexin accumulation were examined in compatible and incompatible interactions of leaves and tubers from five different R genotypes of potato (Solanum tuberosum) with corresponding pathotypes of Phytophthora infestans, as well as in non-host interactions of all five potato cultivars with Phytophthora megasperma f. sp. glycinea and in elicitor-treated tubers from five, and cell suspension cultures from two, of the cultivars. In tubers, rishitin and several structurally related sesquiterpene derivatives accumulated rapidly in non-host incompatible interactions, less rapidly in host incompatible interactions, and more slowly in compatible interactions. Treatment of tubers or cell cultures with fungal culture filtrate or arachidonic acid elicited in most cases a transient accumulation of the sesquiterpenoid phytoalexins. None of these compounds was detectable under any of the applied conditions either in infected or in elicitortreated leaves. Sesquiterpenoid phytoalexins might therefore be helpful, but appear not to be essential, in disease resistance of potato.Abbreviations CF concentrated culture filtrate of Pi - cv. cultivar - Pi Phytophthora infestans (numbering indicates pathotypes corresponding to R genes in potato) - Pmg Phytophthora megasperma f. sp. glycinea     

Effects of Controlled Atmospheres on Production of Sesquiterpenoid Stress Metabolites by White Potato Tuber: Possible Involvement of Cyanide-resistant Respiration

Levels of katahdinone (solavetivone), lubimin, rishitin, and phytuberin, sesquiterpenoid stress metabolites of white potato (Solanum tuberosum), were monitored in tuber slices which were challenged with an extract of Phytophthora infestans and incubated under controlled atmospheres. A mixture of ethylene in air enhanced stress metabolite production. This enhancement was amplified by higher partial pressures of oxygen. Stress metabolite production was inhibited by salicylhydroxamic acid. These results suggest the involvement of cyanide-resistant respiration in the production of potato stress metabolites, compounds which may serve as phytoalexins.     

Effect of mycorrhization on the accumulation of rishitin and solavetivone in potato plantlets challenged with<Emphasis Type="Italic"> Rhizoctonia solani</Emphasis>

The effect of colonization with the vesicular-arbuscular mycorrhizal fungus Glomus etunicatum on the content of rishitin and solavetivone was determined in potato plants cv. Goldrush challenged with Rhizoctonia solani. Mycorrhization stimulated significantly the accumulation of both phytoalexins in roots of plantlets challenged with R. solani but did not influence phytoalexin levels in non-challenged plantlet roots. No accumulation of solavetivone or rishitin was detected in shoots. In Petri dish bioassays, rishitin and solavetivone inhibited mycelial growth of R. solani.     

A role for ca in the elicitation of rishitin and lubimin accumulation in potato tuber tissue

Calcium and strontium ions enhanced rishitin but not lubimin accumulation in tuber tissue of potato (Solanum tuberosum cv Kennebec) treated with arachidonic acid (AA). The same cations in the presence of poly-l-lysine (PL) enhanced the accumulation of lubimin more than rishitin. In contrast, Mg²⁺ did not affect AA-elicited rishitin and lubimin accumulation and inhibited the accumulation of these compounds following application of PL. AA-elicited potato tuber tissue remained sensitive to the stimulatory effects of Ca²⁺ and Sr²⁺ up to 24 h after application of AA, but PL-elicited tuber tissue was sensitive to Ca²⁺ and Sr²⁺ for only 6 hours after PL application. Ethyleneglycol-bis (β-aminoethyl ether)-N,N′-tetraacetic acid and La³⁺ both inhibited rishitin and lubimin accumulation elicited by AA. The inhibition by either agent was overcome by the addition of Ca²⁺. Calcium was more effective in overcoming lanthanum inhibition when applied simultaneously than when applied 12 hours later. Lanthanum was only effective in inhibiting rishitin and lubimin accumulation when applied within 3 hours of the application of AA. Inhibition of phytoalexin accumulation was greater when La³⁺ was applied simultaneously with AA compared to La³⁺ application after AA application to discs. These observations suggest that the mobilization of calcium may play a central regulatory role in the expression of phytoalexin accumulation following elicitation in potato tissue.     

Biotransformation of potato stress metabolites rishitin,lubimin, and 15-dihydro lubimin by potato and soybean cell cultures

Potato callus and cell suspensions of potato and soybean were exogenously supplied with potato phytoalexin rishitin, much of which was converted by both species to an unknown tenatively identified as glutinosone. Exogenous lubimin was unaffected by the potato cell culture, but was transformed to 15-dihydro lubimin by the soybean cell suspensions. The stability of the exogenous lubimin may be ascribed to a second block in the rishitin pathway of the potato cell culture.Abbreviations MS Murashige and Skoog (1962) - NAA 1-naphthaleneacetic acid - TMV 2,4-dichlorophenoxyacetic acid, 2,4-D; Tobacco Mosaic Virus - TLC thin layer chromatography - GC gas chromatography - GC/MS gas chromatography/mass spectrometry - NMR nuclear magnetic resonance     

A comparison of the sites of phytoalexin accumulation and of biosynthetic activity in potato tuber tissue inoculated with biotic elicitors

Aged discs cut from Kennebec potato tubers were inoculated with one of the following: an elicitor preparation from mycelia of Phytophthora infestans race 4, zoospores from either race 4 or race TY complex of this fungus, or sodium arachidonate. At 24 hr intervals after inoculation, four successive 0.5 mm thick layers of tissue were cut from the discs. This tissue was analysed for accumulated phytoalexins and also used to prepare cell-free enzyme systems for lubimin biosynthesis. In tissue treated with either the elicitor preparation or race 4 zoospores, levels of phytoalexin accumulation were highest in the first layer of tissue. Surprisingly, however, cell-free lubimin biosynthesis from [1-¹⁴C]isopentenyl pyrophosphate was also generally greater in preparations derived from the first 0.5 mm of tissue. Accumulation of phytoalexins in tissue inoculated with zoospores from race TY complex was very low, whereas cell-free biosynthetic activity was initially comparable to that seen in preparations from tissue treated with the elicitor preparation. By the end of the experimental period lower layers of tissue from discs treated with sodium arachidonate contained the highest levels of phytoalexins and yielded cell-free enzyme preparations with the greatest lubimin biosynthetic activity.     

Interaction of methyl jasmonate, wounding and fungal elicitation during sesquiterpene induction in Hyoscyamus muticus in root cultures

The ability of methyl jasmonate (MeJa) to induce sesquiterpene production in root cultures of Hyoscyamus muticus has been studied. Although MeJa alone could not induce sesquiterpene in unwounded culture, MeJa added in the presence of wounding displayed a dose-dependent response, saturating at 50 μM. The ability to respond to MeJa declined with an increase in time between MeJa contact and wounding; however, responsiveness could be recovered by re-wounding of tissue prior to MeJa contact, suggesting that additional signaling related to wounding is required for sesquiterpene pathway induction. The saturation level of sesquiterpene induction with fungal elicitor was four times higher than the saturation level achieved by MeJa, with clear differences in sesquiterpene composition. Fungal elicitation results in a higher level of lubimin and a lower level of solavetivone production; whereas, methyl jasmonate induces predominantly solavetivone and little or no lubimin production. This suggests that fungal elicitation induces enzymes further down the sesquiterpene pathway which are not affected by MeJa. The induction of roots in contact with subsaturated levels of elicitor can be enhanced to saturation production levels by the addition of small amounts of MeJa (5–10 μmoles/l). In these studies, MeJa was consistently found to favor the earlier metabolite (solavetivone), while fungal elicitation promoted conversion to subsequent metabolites in the pathway (lubimin). The interactive role of MeJa in signal transduction for secondary metabolic production is discussed. Received: 8 June 1997 / Revision received: 13 August 1997 / Accepted: 13 September 1997     

An 18O2 study of the biosynthesis and metabolism of rishitin

An ¹⁸O₂ study has shown that the hydroxyl oxygen atoms of lubimin, rishitin and two metabolites of rishitin, 13-hydroxyrishitin and 11,12-dihydro-13 (or 12)-hydroxyrishitin, are derived from molecular oxygen. It could not be shown that the aldehyde oxygen of lubimin was derived from molecular oxygen, probably due to its exchange with the oxygen atom of water. These findings have established that mono-oxygenases are involved in all of the hydroxylation reactions and that, contrary to a previous proposal, 11,12-dihydro-13 (or 12)-hydroxyrishitin is not formed from rishitin by hydration.     

An in vitro control mechanism for potato stress metabolite biosynthesis

Ethylene/oxygen (E/O₂) elevates sesquiterpenoid stress metabolite (SSM) levels in potato (Solanum tuberosum L.) tuber tissue which is reacting hypersensitively. To determine whether E/O₂ retards SSM turnover, a measured amount of rishitin was applied to tuber tissue which was then incubated in air or E/O₂, and rishitin disappearance was monitored. No difference in the rate of rishitin disappearance was detected between air and E/O₂ incubations. However, tissue treated with rishitin and incubated in E/O₂ accumulated intermediates of the katahdinone and phytuberin pathways. This was not the case in rishitin-air treatments. These results suggest the dual involvement of ethylene and SSM intermediates in the regulation of the biosynthesis of SSM, compounds which may serve as phytoalexins.     

Involvement of 3-hydroxy-3-methylglutaryl coenzyme a reductase in the regulation of sesquiterpenoid phytoalexin synthesis in potato

The importance of 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMG-CoA reductase) in the regulation of sesquiterpenoid phytoalexin accumulation in potato (Solanum tuberosum L. cv Kennebec) was examined. Wounding of potato tubers produced a large temporary increase in HMG-CoA reductase activity of the microsomal and organelle fractions. Treatment of wounded tuber tissue with the sesquiterpenoid phytoalexin elicitor arachidonic acid further increased and prolonged the HMG-CoA reductase activity in the microsomal but not the organelle fraction. Incubation of elicitor-treated tuber tissue in white light reduced organelle and microsomal HMG-CoA reductase activity to 50% and 10%, respectively, of the activity of tissues held in darkness. Constant light also reduced overall phytoalexin accumulation 58% by greatly reducing levels of lubimin. Rishitin accumulation was not significantly altered by light. Application of nanomolar amounts of mevinolin, a highly specific inhibitor of HMG-CoA reductase, to elicitor-treated tuber tissue produced a large decline in lubimin accumulation and did not markedly alter rishitin accumulation. These results indicate that HMG-CoA reductase has a role in the complex regulation of sesquiterpenoid phytoalexin accumulation in potato.     

The effect of rishitin on potato tonoplast vesicle and vacuole proton transport

Rishitin, a known potato phytoalexin, was tested for its effects on proton transport. Like the pterocarpan phytoalexins, glyceollin and phaseollin, rishitin was found to inhibit proton transport. At 100 μM rishitin, proton transport in potato tonoplast vesicles was inhibited by >95%. This inhibition appears to be due to an increase in proton conductance and not to inhibition of the tonoplast ATPase. Potato vacuoles were also shown to have increased proton leakage in the presence of rishitin.     

Elicitor activity ofAgrobacterium radiobacter in plants

Agrobacterium radiobacter was tested for the ability to induce the accumulation of phytoalexins and hypersensitive necrotic reaction in pea, bean and potato. A live bacterial suspension with a cell concentration of 1/pL and a solution of a crude polysaccharide produced by the bacteria caused the hypersensitive reaction in potato and bean and the production of phytoalexins in all three species of plants. The results obtained are discussed in connection with the previously found protective effect of the studied strain ofA. radiobacter against soil phytopathogenic fungi. A contribution of defense reactions to the determination of host specificity of the pathogenic strains of theAgrobacterium genus has been proposed.     

Accumulation of six sesquiterpenoid phytoalexins in tobacco leaves infiltrated with Pseudomonas lachrymans

Tobacco leaves inoculated with Pseudomonas lachrymans accumulated capsidiol, rishitin, lubimin, solavetivone, phytuberin and phytuberol.     

Comparisons between Phytoalexin Concentrations and the Extent of Rotting of Potato Tubers Inoculated with Erwinia carotovora sub sp. atroseptica, E. carotovora sub sp. carotovora or E. chrysanthemi

Isolates of Erwinia carotovora sub sp. atroseptica, E. carotovora sub sp. carotovora and E. chrysanthemi were compared for their ability to rot potato tubers and to elicit the accumulation of phytoalexins. With three incubation temperatures (15, 22 and 30°C) tubers were more susceptible at higher temperatures and mean rot weights were inversely correlated with mean rishitin concentrations. However, within treatment variation between tubers in the extent of rotting was not correlated with rishitin concentration suggesting that other factor(s) also affect resistance. Phytoalexins, including 15-dihydrolubimin, 3-hydroxylubimin, phytuberin and solavetivone, were measured by high pressure liquid chromatography using a silica column.     

Novel study on the elicitation of hypersensitive response by polyunsaturated fatty acids in potato tuber.

A GC-MS procedure was carried out for the simultaneous and unequivocal quantitation of both potato phytoalexin (rishitin and lubimin) accumulation and the rate of disappearance of polyunsaturated fatty acids (PUFA) and some of their esters tested as possible elicitors. Potato 5-lipoxygenase and lipolytic acyl hydrolase play a key role in hypersensitive response (HR) induction. As expected, arachidonic acid, its hydrolysable esters, and eicosapentaenoic acid elicited much higher HR than the other PUFA tested, although the latter were equally affected by potato 5-lipoxygenase. Hydroxyl radicals appear to be actively involved in the browning process. The polyaminoacid poly-L-lysine did not show any eliciting activity.