Investigations on the content of steroidal alkaloids and sapogenins withinSolanum sect.Solanum ( = sect.Morella) (Solanaceae)

Plant material of 55 strains from 32 species ofSolanum sect.Solanum ( = sect.Morella) has been investigated for the content of steroidal alkaloids and sapogenins. The leaf-extracts of all species contain diosgenin resp. tigogenin or both together in considerable amount. On the contrary the characteristic steroidal alkaloid solasodine was absent in these samples. For 29 species the presence of steroidal sapogenins has been proved for the first time. In unripe fruits, however, solasodine could be detected in most of the species examined. New occurences of solasodine are reported for seven further species. These chemical results may contribute to a better comprehension of the difficult genusSolanum.—Ontogenetic studies on different organs ofS. atriplicifolium show the relationship between accumulation of steroidal compounds and plant maturity.     

Differential solasodine accumulation in photoautotrophic and heterotrophic tissue cultures of Solanum laciniatum

Foliage from a Solanum laciniatum plant contained 7.64 mg solasodine per g dry weight. In contrast, leaf-derived callus cultures incubated under light yielded only 0.09 mg/g solasodine. A similar low level was recovered from shoots regenerated from this callus and cultured under heterotrophic conditions. However, shoots cultured photoheterotrophically or photoautotrophically yielded solasodine concentrations approaching those of field grown plants. Solasodine biosynthesis in S. laciniatum is therefore promoted by actively photosynthesising chloroplasts, and cell cultures yield only low solasodine levels as a consequence of their heterotrophic mode of nutrition.     

Structure of solanaviol,a new steroidal alkaloid from Solanum aviculare

A new alkaloid solanaviol ((22R, 25R)-spirosol-5-ene-3β,12β-diol) was isolated from Solanum aviculare in addition to solasodine as one of the main alkaloids. The structure of solanaviol was established by NMR spectroscopy, as well as by conversion into a known pregnane derivative and solasodine.     

Solaverbascine—a new 22,26-epiminocholestane alkaloid from Solanum verbascifolium

Besides solasodine and tomatidine the new alkaloid solaverbascine has been obtained from the leaves of Solanum verbascifolium and identified as (22S:25R)-22,26-epiminocholest-5-ene-3β, 16β-diol by physical data and direct comparison with synthetic material.     

QTL mapping of foliar glycoalkaloid aglycones in Solanum tuberosum×S. berthaultii potato progenies: quantitative variation and plant secondary metabolism

 Glycoalkaloids are quantitatively inherited in Solanum, and in high concentrations they can be toxic to humans. The increased use of wild potato germplasm to improve the pest resistance, yield, and quality characteristics of cultivated potato may elevate or introduce new, more toxic glycoalkaloids into the cultivated gene pool. Therefore, it is important to increase our understanding of their inheritance, accumulation, and biosynthesis. Glycoalkaloids have two basic constituents – a glycosidic grouping and a steroid alkaloid skeleton. Steroid alkaloids are classified as solanidanes and spirosolanes, of which solanidine and solasodine are, respectively, representatives. RFLP-mapped, diploid, reciprocal backcross potato progenies involving the parents S. tuberosum and S. berthaultii, which produce solanidine and solasodine, respectively, were analyzed for segregation of the glycoalkaloids solanine, chaconine, solasodine and solamargine to identify quantitative trait loci (QTLs) for the production of the aglycones solanidine and solasodine. The F₁ clone M200-30 exhibited low to nondetectable levels of solasodine and solanidine, suggesting that expression was controlled by recessive genes. In a backcross to berthaultii (BCB) and backcross to tuberosum (BCT), several QTLs for the accumulation of solasodine and solanidine were identified. Three QTLs explaining approximately 20% of the variation in solasodine were identified in BCB on chromosomes 4, 6, and 12. Similarly, three QTLs were identified in BCT on chromosomes 4, 8 and 11, but these accounted for only 10% of the variation observed in solasodine accumulation. Two QTLs for solanidine were identified in BCT on chromosomes 1 and 4. The QTL located on chromosome 1 was highly significant, accounting for 17% and 22% of the variation in solanidine accumulation in 1994 and 1995, respectively. This same QTL was also detected in BCB. The QTLs detected in this study probably represent structural and/or regulatory genes controlling the accumulation of solasodine and solanidine. Results are discussed in the context of steroid alkaloid accumulation and biosynthesis. Received: 27 August 1997 / Accepted: 16 March 1998     

Precursor-feeding strategy for the production of solanine,solanidine and solasodine by a cell culture of Solanum lyratum

Solanum lyratum, a medicinal plant, has been used to treat cancers, tumors, and warts for many years. Undifferentiated cell cultures were mainly used to study the precursor-feeding strategy for the production of secondary metabolites of α-solanine, solanidine, and solasodine for pharmaceutical usage. In this study, S. lyratum cells were fed with exogenous plant sterols including cholesterol, stigmasterol, and mixed sterols (β-sitosterol, campesterol, and dihydrobrassicasterol). The results showed that none of the plant sterols exhibited an effect on cell growth as compared to that of the control. Cellular concentrations of solanidine and solasodine were relatively higher than α-solanine levels in all the treatments. The maximal solasodine level in cells was 11.19 mg/g dry weight (DW) after 0.05–1 mg/l stigmasterol feeding, which was about 10-fold higher than the control. With regard to solanidine levels, the maximal level in cells was 5.84 mg/g DW after feeding with 20 mg/l cholesterol. This is the first report on the in vitro enhancement of solanidine and solasodine, steroidal alkaloids with medicinal value, from S. lyratum.     

Pyrrolizidine alkaloids of Heliotropium from Mexico and adjacent U.S.A.

The levels of alkaloids were determined in leaves and stems of 24 species of Heliotropium collected in Mexico and adjacent U.S.A. All species contained unsaturated pyrrolizidines, their content in leaves ranging from 0.003 to 0.18%. Saturated pyrrolizidine alkaloids were detected in nine species. Greenhouse-grown plants of five species had a significantly higher alkaloid content in their leaves than the corresponding field samples. In all these species, except for H. indicum, the differences were due to higher levels of saturated pyrrolizidines.     

The alkaloid contents of sixty Nicotiana species

The alkaloid content (nicotine, nornicotine, anabasine, and anatabine) in leaves and roots of 60 Nicotiana species were analyzed by GC. All species contained alkaloids, the amounts varying with the species. There was no clearcut correlation between alkaloid amounts and subgeneric or sectional classification. The alkaloid content in the floral parts and immature and mature fruits of Nicotiana tabacum were also analyzed.     

Production of solasodine by hairy root,callus, and cell suspension cultures of Solanum aviculare Forst.

The production of the steroidal alkaloid solasodine, an alternative to diosgenin as a precursor for the commercial production of steroid drugs, was studied in hairy root, callus, and cell suspension cultures of Solanum aviculare Forst. through manipulation of culture medium. The individual and combined effects of medium components on the growth index and the production of solasodine were analyzed using factorial analysis of variance. Solasodine content was optimized to 6.2 mg g⁻¹in the hairy root, 1.4 mg g⁻¹callus, and 0.7 mg g⁻¹in cell suspension cultures (dry weight). An improved isocratic reversed phase high performance liquid chromatographic method provided selective determination of the solasodine content of these samples. Analysis of growth and solasodine content of hairy root cultures and callus cultures demonstrated that the production of solasodine was shown to be growth-dependent in hairy root cultures but not in callus cultures. This revised version was published online in June 2006 with corrections to the Cover Date.     

Zur biogenese des tigogenins in Digitalis lanata und des solasodins in Solanum laciniatum

7α-[³H]-20-hydroxycholesterol was converted by Digitalis lanata plants into tigogenin. 7α-[³H]-20-hydroxycholesterol and 7α-[³H]-26-aminodihydrodiosgenin were utilized for the biogenesis of solasodine by plants of Solanum laciniatum. These results are discussed in relation to spirostanol and spirosolan alkaloid biogenesis.     

Sequestration of pyridine alkaloids anabasine and nicotine from Nicotiana (Solanaceae) by Orobanche ramosa (Orobanchaceae)

Plants of the root holoparasite Orobanche ramosa L. and four of its potential host species, Nicotiana glauca Graham, Nicotiana rustica L., Nicotiana sylvestris Speg. & S.Comes, and Nicotiana tabacum L., grown in the greenhouse in Kiel/Germany, were analyzed for their contents of pyridine alkaloids anabasine (1) and nicotine (2). All investigated samples contained both alkaloids in different amounts. The distribution of the alkaloids in the various plant organs of Nicotiana differed significantly between the species. The alkaloid contents of the Orobanche samples relative to the alkaloid contents of the roots of the respective host plants varied between 3.47 ± 1.08 and 28.8 ± 37.5%. Orobanche plants drain water and crucial nutrients from their hosts; also, some examples for the sequestration of specialized natural products have been reported. O. ramosa is not able to synthesize pyridine alkaloids anabasine (1) and nicotine (2) itself; therefore, the present study proves the sequestration of pyridine alkaloids by O. ramosa from the four investigated Nicotiana host species.     

Iridoids and alkaloids from Castilleja host plants for platyptilia pica. Rhexifoline content of P. pica

Iridoid and alkaloid analyses were conducted on Castilleja sulphurea, C. occidentalis, C. rhexifolia and C. hispida (Scrophulariaceae). Pyrrolizidine alkaloids were found in C. rhexifolia and some C. sulphurea populations, but other C. sulphurea populations had quinolizidine alkaloids or none at all. No C. occidentalis populations contained alkaloids. C. hispida was found to contain lamprolobine and the quinolizidine alkaloid anagyrine. All taxa contained the pyridinemonoterpene rhexifoline. The iridoid content of the Castilleja species were all qualitatively similar. Major iridoids were aucubin, catalpol, penstemonoside and shanzhiside methyl ester, with traces of 8-epiloganin and gardoside methyl ester. Larvae of Platyptilia pica (Pterophoridae) hosted by Castilleja were found to excrete and not sequester iridoids. The adult moths contained rhexifoline alkaloid, but at a low concentration level. Systematic implications of the results for Castilleja are discussed.     

Two Delphinium ramosum chemotypes,their biogeographical distribution and potential toxicity

Larkspurs (Delphinium, Ranunculaceae) are poisonous plants found on rangelands throughout Western North America. Two main structural groups of norditerpene alkaloids, the N-(methylsuccinimido) anthranoyllycoctonine type (MSAL-type) and the non-MSAL type, are responsible for larkspur-induced poisoning. Information on the alkaloid composition is lacking for a number of Delphinium species, including D. ramosum. Delphinium ramosum grows throughout parts of Colorado and northern New Mexico. The objective of this study was to profile the alkaloid composition of D. ramosum throughout its geographical distribution using both field and herbarium specimens. Two alkaloid profiles were identified, one that contained significantly greater concentrations of the MSAL-type alkaloids than the other. Plants containing each respective alkaloid profile were unique in their geographical distribution. Populations of these two chemotypes will likely differ in their toxic potential and consequently pose different risks of poisoning when grazed by livestock species. This information has important implications in grazing management decisions on D. ramosum-infested rangelands and demonstrates that botanical classification alone is not an adequate indicator of relative risk of toxicity.     

A new alkaloid from south african Conium species

Recent screening of South African Conium species for alkaloids as part of taxonomic studies has yielded γ-coniceine, coniine, methylconiine, conhydrine and a new alkaloid N-methylpseudoconhydrine. The relative stereochemistry of N-methylpseudoconhydrine was ascertained by ¹H NMR decoupling experiments. This latter alkaloid was found in significant amounts in the leaf and stem of some plants investigated and was the major alkaloid along with conhydrine in the leaf and stem of one group of high altitude plants. These plants also contained significant amounts of volatile oil, the major monoterpene being myrcene.     

Some Accounts on Culture Conditions of Callus Tissues of Solanum laciniatum Ait. for Producing Solasodine

Production of solasodine in callus cultures of Solanum laciniatum Ait. was examined under several culture conditions. The steroidal alkaloid was produced more actively in rapidly proliferating callus tissues cultured on PN medium. The alkaloid concentration in the tissue was about 0.05% (dry weight basis) during the first 5 weeks’ culture. The highest accumulation of the alkaloid per culture was obtained with 2,4-d concentration in the medium at 1~2 ppm. It is noteworthy that the alkaloid production was not inhibited by such high concentration of 2,4-d as up to 10 ppm in the medium. Supplementation of kinetin slightly increased the alkaloid production.     

Alkaloids of Uncaria attenuata,U. orientalis and U. Canescens

3-Iso-19-epi-ajmalicine, epiallo-corynantheine and dihydrocorynantheine pseudoindoxyl, not previously known as natural products, have been isolated from samples of U. attenuata. Akuammigine, dihydrocorynantheine, hirsutine, hirsuteine, mitraphylline, speciophylline, uncarines A and B, isorhynchophylline rhynchophylline, isocorynoxeine, corynoxeine, corynoxine B, rotundifoline, speciofoline, two yohimbine isomers, a yohimbine oxindole and an unidentified indole alkaloid (M⁺, m/e 347) have been obtained from samples of the same species. 3-Iso-ajmalicine, harmane, isopteropodine, pteropodine, uncarine F, speciophylline, isomitraphylline, mitraphylline and N-oxides of these six oxindole alkaloids have been isolated from samples of U. orientalis. Several samples of U. canescens have yielded harmane while one sample contained the four pteropodine isomers. The variation in the alkaloid content of these three species is discussed.     

Feeding preferences of the weevils Sitona gressorius and Sitona griseus on different lupin genotypes and the role of alkaloids

The weevils Sitona gressorius and Sitona griseus are specialist herbivores on lupins in Europe. The adult weevils feed on the leaves, and the larvae on the root nodules of the plants. This causes severe damage to lupin crops. In the present study, the feeding preferences of lupin weevil adults on different lupin genotypes were examined with respect to a possible effect of lupin alkaloids on host selection. A total of 12 genotypes from the species Lupinus albus, L. angustifolius, L. luteus, and L. nanus were grown in a field experiment and the feeding damage on the leaves caused by naturally occurring lupin weevil adults was estimated. Additionally, a feeding choice test with S. gressorius adults was performed to examine feeding preferences under laboratory conditions. A gas chromatographic analysis provided information on the alkaloid content and profiles in the leaves of the tested lupin genotypes. In the field experiment, significant differences in the extent of the feeding damage within the 12 lupin genotypes were observed. The dual-choice feeding bioassay did not show discrimination of lupin species, but two L. angustifolius genotypes were significantly less affected than the standard L. luteus “Bornal”. The alkaloid analysis revealed large contrasts in alkaloid concentrations and profiles in the leaves of the tested genotypes. Correlation analysis with the results from the field and laboratory did not indicate a significant influence of the total foliar alkaloid content on the extent of weevil feeding.     

Steroidal glycoalkaloids in cell and shoot teratoma cultures ofSolanum dulcamara

Bittersweet (Solanum dulcamara L., Solanaceae) is of interest as a source of steroidal alkaloids for the commercial production of hormones. Since glycoalkaloid production is positively correlated to differentiation, tumor and teratoma cultures of the soladulcidine chemotype were established by transformation withAgrobacterium tumefaciens. A newly developed HPLC-system, which allowed separation and sensitive quantitation of the glycoalkaloids soladulcidine-tetraoside, solamargine and solasonine, was used to analyse glycoalkaloid profiles in plants and cultures. Tumors and teratoma were charcterized by a shift in their alkaloid pattern from soladulcidine tetraoside to the solasodine glycosides solamargine and solasonine. Shoot teratoma showed a total glycoalkaloid content of 1% dw, which is about fivefold higher than in the source plant. A regenerated plant retained the altered alkaloid spectrum; the levels, however, equalled those of the source plant. From the alteration of alkaloid pattern in the transformed cultures suggestions can be made concerning the biosynthetic pathway. Completion of the biosynthesis of the aglycone is likely to be complete before glycosylation occurs.     

An NAD(P)H Model Reaction: Reduction of α-Keto Esters by the Hantzsch Ester Accelerated by Zinc Complex in the Reformatsky Mixture

Aiming to get useful steroidal alkaloids by tissue culture of Solanum laciniatum Ait., indefinitely growing callus tissue was prepared from the mother plant. Some nutritional requirements for the growth of the callus tissue were studied. By examining steroidal compounds in callus culture, cholesterol, stigmasterol, β-sitosterol, lanosterol, squalene, diosgenin and a new steroidal alkaloid were found to be formed in the callus culture. The new steroidal alkaloid was found to be solasodine derivative containing rhamnose and other unidentified sugars.     

The alkaloid profiles of Sophora nuttalliana and Sophora stenophylla

Sophora is a diverse genus in the family Fabaceae, comprised of herbs, shrubs, and trees that occurs throughout the world, primarily in the northern hemisphere. Species of Sophora are known to contain quinolizidine alkaloids that are toxic and potentially teratogenic. Two perennial herbaceous species occur in North America, Sophora stenophylla and Sophora nuttalliana. The quinolizidine alkaloid composition of these two species was investigated throughout their geographical distribution using field collections and herbarium specimens. Both species contain quinolizidine alkaloids, and S. nuttalliana contains the teratogen anagyrine. Lastly, neither species contains the neurotoxin swainsonine as implied by the common name “white loco” for S. nuttalliana.