Translation of a Polar Biogenesis Proposal into a Radical Synthetic Approach: Synthesis of Pleurocin A/Matsutakone and Pleurocin B

Matsulongifolins A-J: (-)-longifolane-type sesquiterpenoids from the mushroom Tricholoma matsutake (S. Ito & Imai) Singer

The mushroom Tricholoma matsutake is renowned in East Asia for its distinctive flavour and nutritional value. However, its chemical composition remains largely unexplored. This study aimed to identify potential lead compounds from wild mushrooms, with a focus on the specialised metabolite profiles of T. matsutake. As a result, 10 rare (-)-(14-nor)longifolane-type sesquiterpenoids, designated matsulongifolins A-J (1-10), were isolated from the fruiting bodies of T. matsutake collected in the Tibet Autonomous Region, China. Matsulongifolins G (7)/H (8) and I (9)/J (10) were obtained as inseparable mixtures. The structures, including their absolute configurations, were determined through extensive spectroscopic analyses, single-crystal X-ray diffraction and electronic circular dichroism calculations. Matsulongifolin A (1) features a unique, rigid, cage-like 5/6/7/5/5 polycyclic system, while matsulongifolin B (2), an anhydride derivative, contains a 5/6/7/5 tetracyclic ring system. Matsulongifolins I (9) and J (10) are each distinguished by a succinyl group, a rare feature typically found in bacterial natural products. Bioassay results revealed that matsulongifolins B-F (2-6) exhibited weak inhibitory activity against Staphylococcus aureus subsp. aureus. This study represents the first identification of longifolane-type sesquiterpenes from a mushroom source and advances the understanding of the specialised metabolites present in T. matsutake.

Ergostane-type steroids from mushrooms of Pleurotus genus

Steroids are physiologically important compounds for animals, plants, and fungi, and they have significantly contributed to drug discovery for many years. Fungi mainly biosynthesize ergostane-type steroids such as ergosterol. However, after the basic skeleton is biosynthesized, chemical transformations can lead to the cleavage or rearrangement of the fundamental skeleton of steroids. The cleaved (seco) and rearranged (abeo) steroids are chemically and pharmacologically intriguing because they often exhibit biological activities. As ergostane-type steroids including the normal, seco, and abeo types have been isolated from the mushrooms of the Pleurotus genus, this review focuses on them as a resource of ergostane-type steroids, providing their distribution, structure determination, and biological activity.

Skeletal Isomerization of Ergosterol-5,8-Peroxide Leading to the Discovery of Unprecedented Ergostanes and Collective Syntheses of 5,6-Epoxysterols and (+)-Sarocladione

Skeletal isomerization of ergosterol peroxide, a primary oxidation product of ergosterol, was investigated under thermal and iron(II)-mediated conditions. Thermal isomerization resulted in not only the isolation of the predicted 7-hydroxy-5,6-epoxides but also the discovery of the unprecedented 7/9/5-ring-fused ergostane for the first time. The iron(II)-mediated isomerization proceeded at ambient temperature, resulting in the formation of the expected 5,6-epoxysterols and a ring-opened bicyclic diketone. The diketone was further converted into novel ergostane under thermal conditions and into (+)-sarocladione under acidic conditions. All transformations from ergosterol to sarocladione, including the isolation of the unstable diketone intermediate, were achieved at ambient temperature, confirming the biosynthetic pathway of sarocladione. Several mushroom ingredients with a 5,6-epoxy group were synthesized stereoselectively from the isomerization products, leading to the confirmation or revision of the structures of natural products. The β-amyloid aggregation inhibitory activity of synthetic sterols was evaluated for the first time to gain insights into the potential for dementia prevention. This study is valuable both for supplying rare sterols found in mushrooms for biological studies and for shedding light on the oxidative metabolic pathways of ergosterol.

Controllable skeletal reorganizations in natural product synthesis

Covering: 2016 to 2023The synthetic chemistry community is always in pursuit of efficient routes to natural products. Among the many available general strategies, skeletal reorganization, which involves the formation, cleavage, and migration of C-C and C-heteroatom bonds, stands out as a particularly useful approach for the efficient assembly of molecular skeletons. In addition, it allows for late-stage modification of natural products for quick access to other family members or unnatural derivatives. This review summarizes efficient syntheses of steroid, terpenoid, and alkaloid natural products that have been achieved by means of this strategy in the past eight years. Our goal is to illustrate the strategy's potency and reveal the spectacular human ingenuity demonstrated in its use and development.

Natural Product Synthesis: The Endless Quest for Unreachable Perfection

Total synthesis is a field in constant progress. Its practitioners aim to develop ideal synthetic strategies to build complex molecules. As such, they are both a driving force and a showcase of the progress of organic synthesis. In this Perspective, we discuss recent notable total syntheses. The syntheses selected herein are classified according to the key strategic considerations for each approach.

Biogenetic space-guided synthesis of rearranged terpenoids

Natural product chemistry is constantly challenged by newly discovered, complex molecules. Elements of complexity arise from unprecedented frameworks, with a large amount of densely packed stereogenic centres and different functional groups along with a generally high oxidation state. As a prime example, rearranged triterpenoids possess all these elements. For their total synthesis, a limit of what is considered sensible in terms of steps and yield is frequently reached. As an alternative, semisynthetic approaches have gained a great amount of attention in recent years. In this featured article, we present our and others' contributions towards the development of efficient and economic syntheses of complex terpenoid natural products and elaborate on the underlying rationale of biogenetic space-guided synthetic analysis.

Asymmetric Total Synthesis of Twin Bufogargarizins A and B

The first and asymmetric total synthesis of bufogargarizins A and B, two unusual and highly oxygenated twin steroids with rearranged A/B rings, was achieved. The synthetically challenging [7-5-6-5] tetracyclic ring system of bufogargarizin A was efficiently constructed by the first intramolecular Ru-catalyzed [5 + 2] cycloaddition reaction of a vinyl ether cyclopropane-yne. Notably, the interesting [5-7-6-5] tetracyclic skeleton of bufogargarizin B was diastereoselectively reassembled by unique retro-aldol/transannular aldol cascade reactions from the [7-5-6-5] tetracyclic framework.

Biogenesis-Inspired, Divergent Synthesis of Spirochensilide A, Spirochensilide B, and Abifarine B Employing a Radical-Polar Crossover Rearrangement Strategy

Triterpenoids and related abeo-steroids are of interest to the scientific community for their potent and varied biological activities as well as their unique structures. Within this large and diverse family of natural products, the fir metabolites (-)-spirochensilide A and B are particularly noteworthy for their controversial biogenesis. We herein report the chemical synthesis of the spirochensilides, which involves a concerted sequence of bioinspired rearrangements contributing to its resolution. Points of divergence after each rearrangement step also allow for an approach to the abifarine family of natural products with abifarine B as a synthetic target. Key to this strategy is a radical-polar crossover event to initiate the first rearrangement without the need for a sacrificial functionality to be introduced beforehand.

Synthesis of 9,11-Secosteroids Pinnisterol E, Glaciasterol B, and 6-Keto-aplidiasterol B

A 10-step gram-scale synthesis of 9,11-secosteroid pinnisterol E from the inexpensive ergosterol is reported. This synthesis features a series of highly selective redox transformations such as regioselective olefin hydrogenation (PtO₂), acid-sensitive endoperoxide reduction (Al-Ni alloy, Zn), and regio- and diastereoselective dienone oxidation. The robustness of this strategy is clearly demonstrated through the formal synthesis of 11(9 → 7)abeo-steroid pleurocin B and the divergent synthesis of 9,11-secosteroids glaciasterol B and 6-keto-aplidiasterol B from the inexpensive cholesterol.

A Chan-Evans-Lam approach to trisubstituted vinyl ethers

Trisubstituted vinyl ethers were accessed via Chan-Evans-Lam coupling of vinyl trifluoroborates and primary aliphatic alcohols. This approach complements prior methods that required the use of neat liquid alcohol coupling partners. A palladium-catalyzed redox-relay Heck reaction was used to convert several vinyl ethers into aldehyde-functionalized 1,3-dihydroisobenzofurans.

Contemporary advancements in the semi-synthesis of bioactive terpenoids and steroids

Many natural products have intriguing biological properties that arise from their fascinating chemical structures. However, the intrinsic complexity of the structural skeleton and the reactive functional groups on natural products pose tremendous challenges to chemical syntheses. Semi-synthesis uses chemical compounds isolated from natural sources as the starting materials to produce other novel compounds with distinct chemical and medicinal properties. In particular, advancements in various types of sp3 C-H bond functionalization reactions and skeletal rearrangement methods have contributed to the re-emergence of semi-synthesis as an efficient approach for the synthesis of structurally complex bioactive natural products. Here, we begin with a brief discussion of several bioactive natural products that were obtained via a semi-synthetic approach between 2008 and 2015 and we then discuss in-depth contemporary advancements in the semi-synthesis of bioactive terpenoids and steroids reported during 2016-2020.

Concise Synthesis of 9,11-Secosteroids Pinnigorgiols B and E

Pinnigorgiols B and E are 9,11-secosteroids with a unique tricyclic γ-diketone framework. Herein, we report the first synthesis of these natural products from inexpensive, commercially available ergosterol. This synthesis features a semipinacol rearrangement and an acyl radical cyclization/hemiketalization cascade; the latter efficiently assembled the tricyclic γ-diketone skeleton, with two rings and three contiguous stereogenic centers being formed in a single step.

Innovation of hypervalent(iii) iodine in the synthesis of natural products

The focus article discusses the innovation of hypervalent(iii) iodine regarding skeletal rearrangement, cycloaddition and cyclization, and sp³ C–H functionalization in natural product synthesis.

Discoveries and Challenges en Route to Swinhoeisterol A

In this work, a full account of the authors' synthetic studies is reported that culminated in the first synthesis of 13(14→8),14(8→7)diabeo-steroid swinhoeisterol A as well as the related dankasterones A and B, 13(14→8)abeo-steroids, and periconiastone A, a 13(14→8)abeo-4,14-cyclo-steroid. Experiments are described in detail that provided further insight into the mechanism of the switchable radical framework reconstruction approach. By discussing failed strategies and tactics towards swinhoeisterol A, the successful route that also allowed an access to structurally closely related analogues, such as Δ22 -24-epi-swinhoeisterol A, is eventually presented.

Asymmetric Total Synthesis of Bufospirostenin A

The first and asymmetric total synthesis of bioactive bufospirostenin A, an unusual spirostanol with rearranged A/B rings, was accomplished. The synthetically challenging [5-7-6-5] tetracyclic ring system, found in bufospirostenin A and some other natural products, was efficiently constructed by the unique intramolecular rhodium-catalyzed Pauson-Khand reaction of an alkoxyallene-yne. The 11 stereocenters in the final product, including the 10 contiguous stereocenters, were installed diastereoselectively.

Pleurocorols A and B: rearranged steroids from the fruiting bodies of Pleurotus cornucopiae

Pleurocorols A and B, unprecedented steroids with an 11(9 → 8)abeo-ergostane and a 5(6 → 7), 11(9 → 7)diabeo-ergostane skeleton, respectively, were isolated from Pleurotus cornucopiae.