Lupin alkaloids from Echinosophora koreensis

The nine known lupin alkaloids, (?)-cytisine, (?)-N-methylcytisine, (?)-N-(?3-oxobutyl)-cytisine, (?)-N-formylcytisine, (?)-rho     

Alkaloids of Thermopsis Lupinoides

Ammodendrine, together with seven other known lupin alkaloids, was isolated from Thermopsis lupinoides. (+)-Lupanine (+)-17-oxolupanine occurred together with (?)anagyrine, (?)-baptifoline, (?)-cytisine, (?)-N-methylcytisine (?)N-formylcytisine. These alkaloids have the opposite stereochemistry to that of (+)-lupanine and (+)-17-oxolupanine. The distribution of alkaloids in fresh flowers, leaves, stems roots of this plant was also examined.     

Two cage-type lupin alkaloids from Sophora franchetiana

Two new cage-type lupin alkaloids, (?)-tsukushinamine-B and tsukushinamine-C, have been isolated from the fresh epigeal parts of Sophora franchetiana, along with (?)-cytisine, (?)-N-formylcytisine, (?)-rhombifoline, (?)-anagyrine, (?)-baptifoline and (±)-ammodendrine, as well as (?)-tsukushinamine-A. The structures of these novel tsukushinamine-type lupin alkaloids were determined by spectroscopic data and partly by a chemical reaction. Variations of the alkaloid contents in the seeds, seedlings and various parts of S. franchetiana were also examined.     

(−)-Epilamprolobine and its N-oxide,lupin alkaloids from Sophora tomentosa

From the fresh leaves of Sophora tomentosa, three new lupin alkaloids, (?)-epilamprolobine, (+)-epilamprolobine N-oxide and 5-(3′-methoxycarbonylbutyroyl)aminomethyl-trans-quinolizidine N-oxide, have further been isolated along with (+)-matrine, (+)-matrine N-oxide, (+)-sophocarpine N-oxide, (?)-anagyrine, (?)- baptifoline, (?)-cytisine, (?)-N-methylcytisine, (?)-N-formylcytisine, (?)-N-acetylcytisine and (±)-ammodendrine. The absolute configurations of (+)-epilamprolobine N-oxide (1R:5R:6S) and (?)-epilamprolobine (5R:6S) have also been established by spectroscopic data and by comparison with synthetic (+)-epilamprolobine (5S:6R)derived from (?)-lupinine (5R:6R). (?)-Epilamprolobine is a diastereomer of (+)-lamprolobine (5R:6R) in Lamprolobium fruticosum and 5-(3′-methoxycarbonylbutyroyl) aminomethyl-trans-quinolizidine N-oxide is presumed to be an artefact. A biosynthetic pathway for the formation of (?)-epilamprolobine is also proposed.     

Alkaloids of formosan Fissistigma and Goniothalamus species

Separation of the basic fractions from Formosan Fissistigma glaucescens, F. oldhamii and Goniothalamus amuyon afforded one new quaternary phenanthrene alkaloid, N-methylatherosperminium (15), along with the known alkaloids, (?)-discretamine (1), (?)-tetrahydropalmatine (2), palmatine (3), (?)-asimilobine (4), (?)-norannuradhapurine (5), (?)-crebanine (6), (?)-calycinine (fissoldine, fissistigine A) (7a), (?)-anolobine (8), (?)-xylopine (9), (?)-anonaine (10a), oxocrebanine (11), liriodenine (12), atherosperminine (13), N-noratherosperminine (14) and (+)-O-methylflavinantine (O-methylpallidine) (16).     

Four new N-acetylnoraporphine alkaloids from Liriodendron tulipifera

Four new naturally occurring N-acetylnoraporphine alkaloids were obtained from the heartwood of Liriodendron tulipifera; (?)-N-acetylanonaine, (?)-N-acetylnornuciferine, (?)-N-acetylasimilobine, and (?)-tuliferoline. Structure determination was accomplished by physical and chemical methods.     

Kaurane and kaurene diterpenes from the stem bark of Xylopia acutiflora

Four diterpenes were isolated from the stem bark of Xylopia acutiflora and characterized as (?)-kauran-16α-ol, 7,8-acetoxy-(?)-kaur-16-en-19-oic acid, 15-oxo-(?)-kaur-16-en-19-oic acid, and 16α- hydroxy-(?)-kauran-19-oic acid.     

Sesquiterpenes from Lansium anamalayanum

The essential oil from the wood of Lansium anamalayanum Bedd. is shown to consist essentially of (?)-α-gurjunene (34%), (?)-α-trans-bergamotene (26%) and (?)-β-bisabolene (35%). The previously reported ‘chigadmarene’ has been found to be impure α-gurjunene. This essential oil is the richest known source for (?)-α-trans-bergamotene.     

Lignans from Piper cubeba

From the hot petrol extract of Piper cubeba ftuits, six lignans were isolated. Two of these, which have been obtained from a natural source for the first time, have been characterized as (2R,3R)-2-(3″,4″,5″-trimethoxybenzyl)-3-(3′,4′-methylenedioxybenzyl)-1,4-butanediol [(?)-dihydroclusin] and (3R,4R)-3,4-bis-(3,4,5-trimethoxybenzyl)tetra-hydro-2-furanol [(?)-cubebinin]. (?)Cubebin, (?)-hinokinin, (?)-clusin and (?)-dihydrocubebin were also found in this plant. Only (?)-cubebin has been reported so far from this source.     

Discovery of aminocyclohexene analogues as selective and orally bioavailable hNav1.7 inhibitors for analgesia

hNav1.7 receives a lot of attention owing to its attractive mechanism of action in pain processing pathway. We have previously reported our design of a novel series of tetrahydropyridine analogues towards hNav1.7 selective inhibitors. Herein, we disclose further efforts to the optimization of hit compound (?)-6, which led to the identification of aminocyclohexene analogues (?)-9 and (?)-17 with good potency, high selectivity, and minimal CYP inhibition. Both compounds (?)-9 and (?)-17 demonstrated improved pharmacokinetic profiles in rats, and robust efficacy in rat formalin-induced nociception and spinal nerve ligation (SNL) models.     

Minor alkaloids of Heliotropium curassavicum

Isolation and structure determination of the minor alkaloids of Heliotropium curassavicum are described. These include the new pyrrolizidine alkaloids, heliocurassavine [isoretronecanol (?) curassavine], heliocoromandaline [isoretronecanol (+) viridiflorate], heliocurassavicine [isoretronecanol (?) trachelanthate], heliocurassavinine [laburnine (?) trachelanthate], curassavinine [supinidine (?) curassavate], coromandalinine [supinidine (+) viridifloratel, heliovinine [supinidine (?) trachelanthate] and curassanecine [1-(α-hydroxy-methyl)-8α pyrrolizidin-1β-ol]. Structures were established by high resolution ¹H NMR, mass spectrometry and paper electrophoresis of the alkaloids and their hydrolysis products.     

A benzopyrroloisoquinoline alkaloid from Ficus fistulosa

A new benzopyrroloisoquinoline alkaloid, fistulosine (1), was isolated from the stem-bark of Ficus fistulosa (Moraceae) collected in Singapore, along with three known phenanthroindolizidine alkaloids, (?)-13aα-antofine (2), (?)-14β-hydroxyantofine (3) and (?)-13aα-secoantofine (4). (?)-13aα-Antofine (2) accounted for the antifungal activity against Aspergillus fumigatus and Candida albicans originally observed in the crude alkaloid extract.     

Alkaloids and styryllactones from the leaves of Goniothalamus tamirensis

Three new compounds, goniotamirine (1), goniotamiric acid (2), and 3,5-demethoxypiperolide (3) were isolated from the leaves of Goniothalamus tamirensis (Annonaceae), together with sixteen known compounds, (?)-N-nornuciferine (4), (?)-norisocorydine (5), (?)-isocorydine (6), (?)-3-hydroxynornuceferine (7), (?)-O-methylisopiline (8), (?)-anonaine (9), (?)-roemerine (10), (?)-roemeroline (11), (?)-boldine (12), glaunine (13), liriodenine (14), 9-deoxygoniopypyrone (15), 8-epi-9-deoxygoniopypyrone (16), 8-epi-9-deoxygoniopypyrone acetate (17), goniodiol (18) and goniothalamin (19). The structures were established from spectral analysis, including mass spectrometry and 2D-NMR. The absolute configuration of 1 was determined from analysis of its MTPA amide derivatives. The cytotoxicity of all isolates was evaluated against KB cells. Only compound 4 (N-nornuciferine) showed a moderate activity with an IC₅₀ value of 12 μg/mL.     

Two flavonoids from tephrosia purpurea

Purpurenone, a new β-hydroxychalcone; (+)-purpurin, a diastereoisomer of(?)purpurin; dehydroisoderricin, and (?)-maackiain have been isolated from the roots of Tephrosio purpurea in addition to the earlier reported flavonoids [1, 2]. Pseudosemiglabrin was obtained in admixture with (?)-semiglabrin     

The influence of Ceratocystis polonica inoculation and methyl jasmonate application on terpene chemistry of Norway spruce,Picea abies

Constitutive and inducible terpene production is involved in conifer resistance against bark beetles and their associated fungi. In this study 72 Norway spruce (Picea abies) were randomly assigned to methyl jasmonate (MJ) application, inoculation with the bluestain fungus Ceratocystis polonica, or no-treatment control. We investigated terpene levels in the stem bark of the trees before treatment, 30 days and one year after treatment using GC–MS and two-dimensional GC (2D-GC) with a chiral column, and monitored landing and attack rates of the spruce bark beetle, Ips typographus, on the trees by sticky traps and visual inspection. Thirty days after fungal inoculation the absolute amount and relative proportion of (+)-3-carene, sabinene, and terpinolene increased and (+)-α-pinene decreased. Spraying the stems with MJ tended to generally increase the concentration of most major terpenes with minor alteration to their relative proportions, but significant increases were only observed for (?)-β-pinene and (?)-limonene. Fungal inoculation significantly increased the enantiomeric ratio of (?)-α-pinene and (?)-limonene 1 month after treatment, whereas MJ only increased that of (?)-limonene. One year after treatment, both MJ and fungal inoculation increased the concentration of most terpenes relative to undisturbed control trees, with significant changes in (?)-β-pinene, (?)-β-phellandrene and some other compounds. Terpene levels did not change in untreated stem sections after treatment, and chemical induction by MJ and C. polonica thus seemed to be restricted to the treated stem section. The enantiomeric ratio of (?)-α-pinene was significantly higher and the relative proportions of (?)-limonene were significantly lower in trees that were attractive to bark beetles compared to unattractive trees. One month after fungal inoculation, the total amount of diterpenes was significantly higher in putative resistant trees with shorter lesion lengths than in putative susceptible trees with longer lesions. Thus, terpene composition in the stem bark may be related to resistance of Norway spruce against I. typographus and C. polonica.     

Biosynthesis of pisatin: Experiments with enantiomeric precursors

Feeding experiments in cupric chloride-treated Pisum sativum pods and seedlings have demonstrated the preferential incorporation of (+)-(6aS,11aS)-[³H]maackiain over (?)-(6aR, 11aR)-[¹⁴C]maackiain into (+)-(6aR, 11aR)-pisatin, establishing that the 6a-hydroxylation of pterocarpans proceeds with retention of configuration. (+)- (6aR,11aR)-6a-hydroxymaackiain was similarly incorporated much better than (?)-(6aS,11aS)-6a- hydroxymaackiain. Where (?)-isomers were incorporated, optical activity measurements on the pisatin produced indicated significant synthesis of (?)-pisatin as well as the normal (+)-pisatin. 7,2′-Dihydroxy-4′,5′- methylenedioxyisoflav-3-ene and both enantiomers of 7,2′-dihydroxy-4′,5′-methylenedioxyisoflavan were poor precursors of pisatin.     

Polyisoprenylated benzophenone and xanthone constituents of the bark of Garcinia cochinchinensis

A new polyisoprenylated benzophenone, guttiferone T, three other benzophenones, (?)-30-epi-cambogin, (?)-guttiferone G and (?)-garcinialiptone A, together with six xanthones, tovophyllin B, nigrolineaxanthone V, pedunxanthone A, tovophyllin A, parvifolixanthone B and dulxanthone A, were isolated from the bark of Garcinia cochinchinensis. Their structures were elucidated using spectroscopic methods, mainly 1-D and 2-D NMR. Three of the polyisoprenylated benzophenone were tested for their cytotoxicity towards two human cancer cell lines, Hela and MCF-7, and exhibited weak activity.     

Usnic acid derivatives from Leprocaulon microscopicum

In addition to known dibenzofuran derivatives such as (?)-usnic acid, (?)-isousnic acid and (?)-placodiolic acid, a Leprocaulon microscopicum acetone extract yielded a new compound, (±)-9-O-methylplacodiolic acid in a keto-enol equilibrium focused on the C-ring. Structures were established using mass spectrometry and combination of 1D and 2D NMR spectral data. ¹³C assignments of placodiolic acid were revised. Tautomers of the (±)-9-O-methylplacodiolic acid were only separated by GC and a thorough fragmentation study confirmed the structural features. To complete the study, evaluation of antiproliferative effects on HT-29 human colorectal cancer cells showed moderate activity for (?)-usnic acid only.     

Biosynthesis of chiral α- and β-pinenes in pinus species

C-3 of (+) and (?)-α-pinene and of (?)-β-pinene biosynthesized in several Pinus species was derived from C-2 of mevalonate; and the hydrogen at C-5 in all the isomers was derived from that at C-6 in nerol. This pattern is consistent with two routes for bicyclization of the acyclic biosynthetic precursor: one leads to (?)-β-pinene and the other to (+)-α-pinene of opposite absolute configuration. (?)-α-Pinene probably results from subsequent isomerisation of the (?)-β-isomer, and (very small) amounts of (+)-β-pinene result from similar (unfavoured thermodynamically) isomerisation of the (+)-α-isomer.