Bio-inspired Total Synthesis of Twelve Securinega Alkaloids: Structural Reassignments of (+)-Virosine B and (−)-Episecurinol A

The so-called Securinega alkaloids constitute a class of tetracyclic biologically active specialised metabolites isolated principally from subtropical plants belonging to the Phyllanthaceae family. Following a strategy based on alternative hypotheses for their biosynthesis, an easy and time-efficient divergent synthesis enabled access to twelve of those alkaloids featuring (neo)(nor)securinane skeletons. Moreover, this work permitted to reassign the absolute configurations of (+)-virosine B and (−)-episecurinol A.     

Fawcettimine‐Type Lycopodium Alkaloids as a Driving Force for Discoveries in Organic Synthesis

Ever since the pioneering synthetic work reported by both Inubushi and Heathcock back in 1980s, the fawcettimine‐type Lycopodium alkaloids have continuously served as a driving force for discoveries in organic synthesis. In this personal account, we summarized our recent synthetic efforts towards the total synthesis of fawcettimine‐type Lycopodium alkaloids, along with a brief summary of relevant syntheses reported by others. Our discussions focus mainly on the key reactions applied during the synthesis of fawcettimine‐type Lycopodium alkaloids.     

Synthesis of Pyrrolophenanthridine Alkaloids Based on C(sp3)H and C(sp2)H Functionalization Reactions

Assoanine, pratosine, hippadine, and dehydroanhydrolycorine belong to the pyrrolophenanthridine family of alkaloids, which are isolated from plants of the Amaryllidaceae species. Structurally, these alkaloids are characterized by a tetracyclic skeleton that contains a biaryl moiety and an indole core, and compounds belonging to this class have received considerable interest from researchers in a number of fields because of their biological properties and the challenges associated with their synthesis. Herein, a strategy for the total synthesis of these alkaloids by using C? H activation chemistry is described. The tetracyclic skeleton was constructed in a stepwise manner by C(sp³)? H functionalization followed by a Catellani reaction, including C(sp²)? H functionalization. A one‐pot reaction involving both C(sp³)? H and C(sp²)? H functionalization was also attempted. This newly developed strategy is suitable for the facile preparation of various analogues because it uses simple starting materials and does not require protecting groups.     

Concise and Enantioselective Total Synthesis of (−)‐Mehranine, (−)‐Methylenebismehranine,and Related Aspidosperma Alkaloids

We report an efficient and highly stereoselective strategy for the synthesis of Aspidosperma alkaloids based on the transannular cyclization of a chiral lactam precursor. Three new stereocenters are formed in this key step with excellent diastereoselectivity due to the conformational bias of the cyclization precursor, leading to a versatile pentacyclic intermediate. A subsequent stereoselective epoxidation followed by a mild formamide reduction enabled the first total synthesis of the Aspidosperma alkaloids (?)‐mehranine and (+)‐(6S,7S)‐dihydroxy‐N‐methylaspidospermidine. A late‐stage dimerization of (?)‐mehranine mediated by scandium trifluoromethanesulfonate completed the first total synthesis of (?)‐methylenebismehranine.     

Synthesis of Bis(indole) Alkaloids from Arundo donax: The Ynindole Diels–Alder Reaction,Conformational Chirality,and Absolute Stereochemistry

Bis(indole) alkaloids from Arundo donax were synthesized using the first ynindole Diels–Alder reaction. The alkaloids are chiral, having stable enantiomeric conformations with half‐lives of racemization of t_1/2=4150–25100 seconds at room temperature. Their absolute stereochemistry was determined using the exciton chirality method.     

Protecting‐Group‐Free Total Synthesis of Isoquinoline Alkaloids by Nickel‐Catalyzed Annulation of o‐Halobenzaldimine with an Alkyne as the Key Step

An efficient short total synthesis of benzo[c]phenanthridine alkaloids including oxyavicine, oxynitidine, and oxysanguinarine is described. Thus, N‐methyl‐o‐bromobenzaldimines 1 b – d undergo regioselective cyclization with 4‐(benzo[d][1,3]dioxol‐5‐yl)but‐3‐yn‐1‐ol ( 2 b ) in the presence of [Ni(cod)₂] (cod=1,5‐cyclooctadiene). In situ oxidation of the resultant isoquinolinium salts gives isoquinolinone derivatives 5 b – d with benzo[d][1,3]dioxol‐5‐yl substitution at the C₃ atom and a (CH₂)₂OH group at the C₄ atom. Later, oxidation of the alcohol group in 5 b – d to the aldehyde moiety followed by acid‐catalyzed cyclization and dehydration completes the total syntheses to give oxyavicine, oxynitidine, and oxysanguinarine in 67, 65, and 60 % yields, respectively. The synthesis requires four steps from o‐bromobenzaldehyde derivatives. Transformations of these alkaloids to the other alkaloids in this family are also discussed herein.     

Stereoselective Dithiophosphorylation of Cinchona Alkaloids: Easy Approach to Prospective Chiral Ligands and Organocatalysts

Abstract

The 9-mesylates of Cinchona alkaloids reacted with HSP(S)(OEt)₂ in benzene at 50°C to give the corresponding O,O-diethyl-dithiophosphates of the alkaloids with complete inversion of configuration at the 9-C stereogenic centers (3 examples, 42–45% yields). Also O-ethyl-dithiophosphoric acid derivative of 9-epi-quinine was obtained. The configuration of the stereogenic centers were established using homo- and hetero-NOE NMR techniques and comparing the experimental and calculated (GIAO/DFT) spectra. The dithiophosphates of alkaloids were tested as chiral ligands in the Pd-catalyzed allylic alkylation of dimethyl malonate with rac-1,3-diphenylprop-2-enyl acetate and in the Cu-catalyzed asymmetric Henry reaction and gave the respective product with up to 51% ee. Quinine O,O-diethyl-phosphorodithioate was also tested as a novel potential chiral solvating agent for amino acids (N-Boc-phenylglycine) in ³¹P and ¹H NMR spectroscopy.

[Supplemental materials are available for this article. Go to the publisher's online edition of Phosphorus, Sulfur, and Silicon and the Related Elements to view the free supplemental files: Additional figures]     

Enantioselective Synthesis of Lepadins A–D from a Phenylglycinol‐Derived Hydroquinolone Lactam

The marine alkaloids (?)‐lepadins A–C and (+)‐lepadin D, belonging to two diastereoisomeric series, were synthesized from an (R)‐phenylglycinol‐derived tricyclic lactam via a common cis‐decahydroquinoline intermediate. Crucial aspects of the synthesis are the stereochemical control in the assembly of the cis‐decahydroquinoline platform, in the introduction of the C2 methyl and C3 hydroxy substituents, and in the generation of the C5 stereocenter.     

Carbohydrate Auxiliaries in Stereoselective Syntheses of Decahydroquinoline Alkaloids

Summary.  Using tetra-O-pivaloyl-β-D-galactopyranosylamine as the chiral auxiliary, both trans- and cis-annelated decahydroquinoline alkaloids can be synthesized stereoselectively. This methodology of asymmetric synthesis is based on the effect that both enantiomers of 2,6-disubstituted piperidin-4-ones are selectively and alternatively accessible using the auxiliary as the identical stereodifferentiating tool. In addition, the carbohydrate auxiliary controls the stereoselective protonation of enolates formed by conjugate addition of cuprates to N-galactosyl octahydroquinolin-4-ones. The syntheses of trans-4a-epi-pumiliotoxin C and cis-4a-epi-perhydro-219A illustrate this concept of asymmetric synthesis of decahydroquinoline alkaloids. Received September 7, 2001. Accepted October 16, 2001     

Evolution of a Short Route to Strychnine by Using the Samarium‐Diiodide‐Induced Cascade Cyclization as a Key Step

This comprehensive report accounts the development of a highly diastereoselective samarium diiodide‐induced cascade reaction of substituted indolyl ketones. The complexity‐generating transformation with SmI₂ allows the diastereoselective generation of three stereogenic centers including one quaternary center in one step. The obtained tetra‐ or pentacyclic dihydroindole derivatives are structural motifs of many monoterpene indole alkaloids, and their subsequent transformations gave way to one of the shortest approaches towards strychnine (14 % overall yield in ten steps, or 10 % overall yield in eight steps). During the course of this report we discuss the influence of substituents on the cyclization step, plausible mechanistic scenarios for the SmI₂‐induced cascade reaction, diastereoselective reductive amination, and regioselective dehydratization protocols towards the pentacyclic core structure of strychnos alkaloids.     

Enantio‐ and Diastereoconvergent Cyclocondensation Reactions: Synthesis of Enantiopure cis‐Decahydroquinolines

Up to four stereocenters with a well‐defined configuration are generated in a single synthetic step by the cyclocondensation of (R)‐phenylglycinol or (1S,2R)‐1‐amino‐2‐indanol with stereoisomeric mixtures (racemates, meso forms, diastereoisomers) of cyclohexanone‐based δ‐keto‐acid and δ‐keto‐diacid derivatives in enantio‐ and diastereoconvergent processes that involve dynamic kinetic resolution and/or desymmetrization of enantiotopic groups. A detailed analysis of the stereochemical outcome of this process is presented. This method provides easy access to enantiopure 8‐ and 6,8‐substituted cis‐decahydroquinolines, including alkaloids of the myrioxazine family.     

Structure-Pattern-Based Total Synthesis

In this article the concept of structure-pattern-recognition and its application to total synthesis is summarized. By applying this synthetic strategy to the two biogenetically unrelated natural product families Sarpagine and Stemona alkaloids, a drastic increase of synthetic efficiency could be achieved. To highlight its potential, this strategy is compared with some elegant target-oriented syntheses. The importance of strategic planning and synthesis design is clearly demonstrated.     

Mass‐spectrometry‐directed analysis and purification of pyrrolizidine alkaloid cis/trans isomers in Gynura japonica

Pyrrolizidine alkaloids are highly hepatotoxic natural chemicals that produce irreversible chronic and acute hepatotoxic effects on human beings. Purification of large amounts of pyrrolizidine alkaloids is necessary for toxicity studies. In this study, an efficient method for targeted analysis and purification of pyrrolizidine alkaloid cis/trans isomers from herbal materials was developed for the first time. Targeted analysis of the hepatotoxic pyrrolizidine alkaloids was performed by liquid chromatography with tandem mass spectrometry (precursor ion scan and daughter ion scan), and the purification of pyrrolizidine alkaloids was achieved with a mass‐directed auto purification system. The extraction and preparative liquid chromatography conditions were optimized. The developed method was applied to analysis of Gynura japonica (Thunb.) Juel., a herbal medicine traditionally used for detumescence and relieving pain but is potentially hepatotoxic as it contains pyrrolizidine alkaloids. Twelve pyrrolizidine alkaloids (six cis/trans isomer pairs) were identified with reference compounds or characterized by liquid chromatography with tandem mass spectrometry, and five individual pyrrolizidine alkaloids, including (E)‐seneciphylline, seneciphylline, integerrimine, senecionine, and seneciphyllinine, were prepared from G. japonica roots with high efficiency. The results of this work provide a new technique for the preparation of large amounts of pyrrolizidine alkaloid reference substances, which will also benefit toxicological studies of pyrrolizidine alkaloids and treatments for pyrrolizidine alkaloid‐induced toxicity.     

Redox Divergent Synthesis of Fawcettimine‐Type Lycopodium Alkaloids

A new approach for synthesis of fawcettimine‐type Lycopodium alkaloids is described. A divergent strategy was achieved by applying stereoselective Diels–Alder reaction followed by redox‐controlled elaboration. Eventually, (?)‐8‐deoxyserratinine, (+)‐fawcettimine, (?)‐lycopoclavamine‐A, (?)‐serratine, (?)‐lycopoclavamine‐B and (?)‐serratanidine were successfully accessed.     

Enantioselective,Protecting‐Group‐Free Total Synthesis of Sarpagine Alkaloids—A Generalized Approach

A generalized synthetic access to sarpagine alkaloids through a joint synthetic sequence has been accomplished. Its applicability is showcased by the enantioselective total syntheses of vellosimine ( 1 ), N‐methylvellosimine ( 3 ), and 10‐methoxyvellosimine ( 8 ). The synthetic sequence is concise (eight steps) from known compound 13 , and requires no protecting groups. The indole heterocycle was introduced in the last step. This strategy allows access to sarpagine alkaloids through a shared synthetic route leading to precursor 10 , which we term “privileged intermediate”. Starting from this intermediate, all sarpagine alkaloids can be synthesized using phenylhydrazines with different substitution patterns ( 15 – 17 ). Our approach brings about the advantage, that synthesis optimization only needs to be performed once for many natural products. The key features of the synthesis are a [5+2]‐cycloaddition and a ring enlargement.     

Enantioselective syntheses of 2,5-disubstituted pyrrolidines based on iridium-catalyzed allylic aminations--total syntheses of alkaloids from amphibian skins

A broadly applicable route to trans‐2,5‐disubstituted pyrrolidines has been developed. Key steps are an asymmetric iridium‐catalyzed allylic amination, a Suzuki–Miyaura coupling, and an intramolecular aza‐Michael addition. Enantiomeric excesses in the range of 93–99 % ee have been achieved. Total syntheses of the alkaloids (?)‐ 225 C , (+)‐ and (?)‐ 223 H (xenovenine), (+)‐ 223 AB , (+)‐ 195 B , and (+)‐ 223 R have been carried out as applications.     

Synthetic approach to natural products by Claisen rearrangement of glyceraldehyde derivatives

For the purpose of organic syntheses of some corynanthe-type indole alkaloids, sesquiterpenes, and steroids, optically active intermediates cyclopentanone 3-allylalcohol, α-methylene-γ-butylo lactones andtrans-hydrindanone-propionic acid, were synthesized from (R)- and (S)-isopropylideneglyceraldehyde derived fromD-mannitol andLascorbic acid, respectively, utilizing Claisen rearrangement as a key reaction. Actually total syntheses of natural alkaloids, (-)-antirhine, (+)-dihydroantirhine and (-) dihydrocorynantheol were accomplished.     

Heathcock‐Inspired Strategies for the Synthesis of Fawcettimine‐Type Lycopodium Alkaloids

The fawcettimine‐type Lycopodium alkaloids have garnered significant attention from synthetic organic chemists since the isolation of fawcettimine in 1959. Despite being targets of interest for over 50 years, most of the strategies employed in the syntheses of fawcettimine congeners have built upon Inubushi and Heathcock’s original work, realized in 1979 and 1986, respectively. This elegant strategy has been explored and expanded upon in the intervening years since the original publications, in what we now call the Heathcock‐inspired strategy. While other disconnections have been disclosed, this strategy remains one of the most efficient. In this Concept article, we focus on exploring a number of recent Heathcock‐inspired syntheses of fawcettimine‐type Lycopodium alkaloids. We also briefly discuss alternative, novel disconnections.     

Sensitive determination of pyrrolizidine alkaloids in Tussilago farfara L. by field‐amplified,sample‐stacking,sweeping micellar electrokinetic chromatography

Pyrrolizidine alkaloids are the toxic components in Tussilago farfara L. Due to the lack of standard substances for quantitative analysis and traces of pyrrolizidine alkaloids in total alkaloids, the full quality control of Tussilago farfara L has been limited. In this study, we aimed to solve the difficulty of determination of pyrrolizidine alkaloids and identify more components in the total alkaloids. An on‐line preconcentration method has been applied to improve determining sensitivity of pyrrolizidine alkaloids in Tussilago farfara L. in which included field‐amplified sample stacking and sweeping in micellar electrokinetic capillary chromatography. The main parameters that affected separation and stacking efficiency were investigated in details. Under the optimal conditions, the sensitivity enhancement factors obtained by the developed method for the analytes were from 15‐ to 12‐fold, the limits of detection of senkirkine and senecionine were 2～5 μg/L. Senkirkine and senecionine have been detected in alkaloids ( c ) of Tussilago farfara L, along ferulic acid methyl ester and methyl caffeate. The developed method was also applied to the analysis of acid extraction ( a ) of Tussilago farfara L, and senkirkine could be detected directly. The results indicated that the developed method is feasible for the analysis of pyrrolizidine alkaloids in Tussilago farfara L with good recoveries.     

A Divergent Enantioselective Total Synthesis of Post-Iboga Indole Alkaloids

Divergent enantioselective total syntheses of five naturally occurring post-iboga indole alkaloids, dippinine B and C, 10,11-demethoxychippiine, 3-O-methyl-10,11-demethoxychippiine, and 3-hydroxy-3,4-secocoronaridine, as well as the two analogues 11-demethoxydippinine A and D, are presented for the first time. The enantioenriched aza[3.3.1]-bridged cycle, a common core intermediate to the target molecules, was constructed through an asymmetric phase-transfer-catalyzed Michael/aldol cascade reaction. The challenging azepane ring fused around the indole ring and the [3.3.1]-bridged cycle were installed through an intramolecular S_N2′-type reaction. These cyclization strategies enabled rapid construction of the [6.5.6.6.7]-pentacyclic core at an early stage. Highlights of the late-stage synthetic steps include a Pd-catalyzed Stille coupling and a highly stereoselective catalyst-controlled hydrogenation to incorporate the side chain at C₂₀ with both R and S configurations in the natural products.