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.     

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.     

Isolubimin: A possible precursor of lubimin in infected potato slices

Potato slices treated with spirovetiva-1(10),11-diene-2-one yield lubimin and rishitin within 24 hr. A vetispirane which has not been detected in fungally infected potatoes was also isolated. This compound, isolubimin, appears to be an intermediate in the conversion of the above spirovetivone to lubimin.     

Detoxification of sesquiterpene phytoalexins byGibberella pulicaris (Fusarium sambucinum) and its importance for virulence on potato tubers

Summary Gibberella pulicaris (Fusarium sambucinum) is a major cause of dry-rot of stored potatoes (Solanum tuberosum) worldwide. The ability of field strains ofG. pulicaris to cause dry-rot is correlated with their ability to detoxify sesquiterpene phytoalexins produced by potato. All highly virulent field strains can detoxify the sesquiterpenes rishitin and lubimin. Meiotic recombinational analysis indicates that rishitin detoxification can be controlled at two or more loci. High virulence has been associated with one of these loci, designatedRiml. Detoxification of rishitin and lubimin comprises a complex pattern of reactions involving epoxidation, dehydrogenation, and cyclization. To date, seven lubimin metabolites and one rishitin metabolite have been characterized. Genes for rishitin and lubimin detoxification are being cloned fromG. pulicaris in order to more rigorously analyze the role and regulation of sesquiterpene metabolism in potato dry-rot. Our results indirectly support a role for sesquiterpene phytoalexins in resistance of potato tubers to dry-rot and may enhance research on alternative control strategies for this economically important potato disease.     

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.     

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.     

LC-MS/MS analysis of epoxyalcohols and epoxides of arachidonic acid and their oxygenation by recombinant CYP4F8 and CYP4F22

CYP4F22 and CYP4F8 are expressed in epidermis, and mutations of CYP4F22 are associated with lamellar ichthyosis. Epoxyalcohols (HEETs) and epoxides (EETs) of 20:4n−6 appear to be important for the water permeability barrier of skin. Our aim was to study the MS/MS spectra and fragmentation of these compounds and to determine whether they were oxidized by CYP4F22 or CYP4F8 expressed in yeast. HEETs were prepared from 15-hydroperoxyeicosatetraenoic acid (15-HPETE), 12-HPETE, and their [²H₈]labeled isotopomers, and separated by normal phase-HPLC with MS/MS analysis. CYP4F22 oxygenated 20:4n−6 at C-18, whereas metabolites of HEETs could not be identified. CYP4F8 formed ω3 hydroxy metabolites of HEETs derived from 12R-HPETE with 11,12-epoxy-10-hydroxy configuration, but not HEETs derived from 15S-HPETE. 8,9-EET and 11,12-EET were also subject to ω3 hydroxylation by CYP4F8. We conclude that CYP4F8 and CYP4F22 oxidize 20:4n−6 and that CYP4F8 selectively oxidizes 8,9-EET, 11,12-EET, and 10,11R,12R-HEET at the ω3 position.     

An NMR study of the loss of carbon-20 in the biosynthesis of gibberellin A3 by Gibberella fujikuroi

Resuspension cultures of Gibberella fujikuroi, strain GF-1a, were shown to metabolise potassium [3′-¹³C] mevalonate to ¹³C-enriched C₁₉-gibberellins, plus ¹³CO₂ (derived from the loss of carbon-20). The formation of [¹³C]-gibberellins could be observed in vivo using ¹³C NMR; however that of ¹³CO₂ could not. In contrast, removal of the mycelium and concentration of the filtrate at pH 12 enabled the ¹³CO₂ produced to be observed using ¹³C NMR. During incubations of H¹⁴CO₂Na with this fungus, complete conversion to other radioactive products was observed, and the significance of these results in the light of previous work is discussed.     

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     

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.     

The biosynthesis of lubimin from [1-14C]isopentenyl pyrophosphate by cell-free extracts of potato tuber tissue inoculated with an elicitor preparation from Phytophthora infestans

A cell-free enzyme system, which catalyses the incorporation of radiolabel from [$\text{1}\text{2}$-¹⁴C]isopentenyl pyrophosphate into the sesquiterpenoid phytoalexin lubimin, has been prepared from tuber tissue of Solanum tuberosum inoculated with an elicitor preparation from Phytophthora infestans. Biosynthesis of lubimin is optimum at pH 7.$\text{3}\text{2}$-7.5 and is dependent upon Mg²⁺ and NADPH. Lubimin labelling by cell-free enzyme system prepared from tissue 48 hr after treatment with elicitor rises rapidly to a maximum over the first 30 min of incubation and does not decline for a further 150 min. The biosynthetic capacity for lubimin in cell free extracts can be observed as early as 3 hr after inoculation of tuber tissue, and rises to a maximum at about 48 hr after treatment, declining thereafter. Lubimin labelling is inhibited by iodoacetamide, the effect of which is reversed by 3,3-dimethylallylpyrophosphate. Preliminary observations on the cell-free system show that it will also catalyse the incorporation of [2-¹⁴C]mevalonic acid into lubimin in the presence ofan ATP-generating system.     

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.     

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.     

No or little production of singlet molecular oxygen in HOCl or HOClH2O2 a model system for myeloperoxidase/H2O2/Cl−

The HOCl in chlorine-water oxidizes DPF to cis-DBE in parallel to the HOCl concentration. The addition of H₂O₂ produces singlet molecular oxygen, and a bimol collision above pH 6.0, but not in the pH region 3.0 to 4.0. The DPF conversion to cis-DBE is initiated by a 1,2-position attack of OH^? and Cl⁺, followed by the HCl elimination. The oxidation potency of HOCl is much greater than the singlet molecular oxygen generated in chlorine-water/H₂O₂ solution, on the pH range 6.0 to 8.0 where both HOCl and OCl^? are present.     

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.     

Studies on the mechanism of formation of the 5S,12S-dihydroxy-6,8,10,14(E,Z,E,Z)-icosatetraenoic acid in leukocytes

Incubation of peripheral blood leukocytes with arachidonic acid (and ionophore A23187) led to the formation of leukotriene B₄, Δ⁶-trans-leukotriene B₄, Δ⁶-trans-12-epi-leukotriene B₄, 5-hydroxy-icosatetraenoic acid, 12-hydroxy-icosatetraenoic acid and of 5S,12S-dihydroxy-6,8,10,14-(E,Z,E,Z)-icosatetraenoic acid (5S,12S-DiHETE). Incubation of leukocytes with leukotriene A₄ resulted in the formation of leukotriene B₄ and of its two Δ⁶-trans-isomers but not of the 5S,12S-DiHETE. ¹⁸O₂ labeling experiments have shown that the hydroxyl groups at C5 and C12 in the 5S,12S-DiHETE are derived from molecular oxygen. The tetraacetylenic analog of arachidonic acid was found to be a potent inhibitor of the formation of the 5S,12S-DiHETE whereas it potentiated the synthesis of the 5-hydroxy acid and of leukotriene B₄. Addition of the 12-hydroxy-icosatetraenoic acid to leukocytes, or of the 5-hydroxy-icosatetraenoic acid to a suspension of platelets caused the formation of the 5S,12S-DiHETE. It is concluded that the 5S,12S-DiHETE is not derived from leukotriene A₄ but is a product of the successive reactions of arachidonic acid with two lipoxygenases of different positional specificities.     

Production of active oxygen species (1O2 and O2⨪) by psoralens and ultraviolet radiation (320–400 nm)

Furocoumarins (psoralens) are potent skin photosensitizing agents that are used in combination with long-wavelength ultraviolet radiation (320–400 nm) in the treatment of psoriasis and other skin diseases. Twelve linear and angular psoralens, capable of forming monofunctional and bifunctional adducts with DNA, were examined with a view to elucidate the role of ¹O₂ and O₂^? in evoking skin photosensitization reactions and skin carcinogenesis. The results showed that both linear psoralens (capable of forming interstrand cross-links) and isopsoralens (angular, monofunctional type) and 3-carbethoxypsoralen (a linear and monofunctional type) produced ¹O₂ and O₂^?, although at varying degrees. Psoralen and 3-carbethoxypsoralen produced ¹O₂ greater than isopsoralens (angelicins). However, nonphotosensitizing angelicin, 5-methyl-angelicin, and 4,8-dimethyl-5′-carboxypsoralen produced ¹O₂ greater than 8-methoxypsoralen and 5-methoxypsoralen. The three monofunctional angelicin derivatives (isopsoralens) produced more O₂^? than 8-methoxypsoralen, 5-methoxypsoralen, and 3,4′-dimethyl-8-methoxypsoralen. 3-Carbethoxypsoralen, a potent generator of ¹O₂ and a moderate producer of O₂^?, was highly photolabile. Until recently, skin photosensitization reactions (erythema, edema, damage to DNA or the membrane of cutaneous cells, the inhibition of scheduled DNA synthesis and skin carcinogenesis, etc.) were believed to involve photocyclo-addition of psoralens to DNA mediated by a type-I or anoxic reaction (a sensitizer-substrate interaction through the transfer of hydrogen atoms or electrons, but no direct involvement of molecular oxygen). Oxygen-dependent sensitized photodynamic reactions of type-II, involving the production of reactive oxygen (¹O₂ and O₂^?), were believed not to mediate psoralen photosensitization reactions. We suggest that ¹O₂ and O₂^? may also participate in skin photosensitization and cell membrane-damaging reactions. The fact that certain monofunctional isopsoralens produce ¹O₂ and O₂^? at rates comparable to or better than bifunctional psoralens suggests that these reactive moieties of oxygen could play a major role in explaining their recently observed carcinogenic property and cell membrane-damaging reactions (e.g., edema or inflammation, etc.).     

Correlating δ13C and δ18O in cellulose of trees

We measured the carbon and oxygen isotopic composition of stem cellulose of Pinus sylvestris, Picea abies, Fagus sylvatica and Fraxinus excelsior. Several sites along a transect of a small valley in Switzerland were selected which differ in soil moisture conditions. At every site, six trees per species were sampled, and a sample representing a mean value for the period from 1940 to 1990 was analysed. For all species, the mean site δ¹³C and δ¹⁸O of stem cellulose are related to the soil moisture availability, whereby higher isotope ratios are found at drier sites. This result is consistent with isotope fractionation models when assuming enhanced stomatal resistance (thus higher δ¹³C of incorporated carbon) and increased oxygen isotope enrichment in the leaf water (thus higher δ¹⁸O) at the dry sites. δ¹⁸ O-δ¹³C plots reveal a linear relationship between the carbon and oxygen isotopes in cellulose. To interpret this relationship we developed an equation which combines the above-mentioned fractionation models. An important new parameter is the degree to which the leaf water enrichment is reflected in the stem cellulose. In the combined model the slope of the δ¹⁸O-δ¹³C plot is related to the sensitivity of the p_i/p_a of a plant to changing relative humidity.     

A new method for measuring 13carbon abundance in tracer experiments

Abstract. A new technique for the precise measurement of ¹³C-abundance and concentration is described. It is based on the differences in infra-red spectra between ¹²CO₂ and ¹³CO₂ and can be applied to gas mixtures or organic materials which have been oxidized to CO₂. The gas mixture is first dried and then passed through two infra-red gas analysers (IRGAs) connected in parallel. The two IRGAs are fitted with different optical filters so they differ in their relative sensitivities to ¹²CO₂ and ¹³CO₂. Once these sensitivities are known then simple algebra allows the concentrations of ¹²CO₂ and ¹³CO₂ to be calculated from the two readings. Two variants of this basic system have been tested. In both, one IRGA was a normal commercial instrument with a narrow band pass interference filter making it highly specific for ¹²CO₂; the second instrument was fitted with either a wide-band pass filter covering both the ¹²CO₂ and ¹³CO₂ absorption bands, or a narrow band pass filter specific for ¹³CO₂. These variations convey different advantages in operation. The wide-band system can be easily calibrated using a single natural abundance ¹²CO₂ standard but is only moderately precise at low abundances. It is particularly valuable for continuous monitoring of the relatively high abundance sources used in plant photosynthesis experiments. The narrow-band system gives high precision but requires a more complex standardization procedure. It is recommended for measurements on low-abundance samples resulting from tracer experiments. Here, its high sensitivity permits measurements on samples as small as 3 μmole C, thus enabling plant fractions and individual metabolites to be investigated. While the wide-band system can be manually operated under field conditions, it is necessary for highest precision to use computerized data collection and linearization. These processes are described, as are novel techniques for standardization, the preparation of small quantities of CO₂ of known abundance, and the transfer of gas samples from oxidizer to analyser. Determinations by the wide band system of % abundance in standard gas mixtures gave a standard error of ±0.03% but this increased to over ±0.1% for abundances below 20%. Corresponding values for the narrow-band system were ±0.01% over the whole abundance range an accuracy almost identical to that observed with an organic mass spectrometer. Two pulse-chase experiment with ¹³CO₂ are described in which the technique was used for studies on growth and metabolism of Lemna minor. The first demonstrated that ¹³C-accumulation within the plants matched closely the predictions from the net assimilation rate and measurements of ¹³C-abundance in the gas phase. The second revealed the rapid changes in the ¹³C-labelling of some plant components during pulse and chase phases. These examples demonstrate the potential of the method for studies in plant physiology and biochemistry. In view of its relative cheapness, ease of maintenance and operation, accuracy, and sensitivity, it is suggested that this new method may encourage a wider use of the safe stable ¹³C for biological and medical applications.