Total Syntheses of (+)-Ineleganolide and (-)-Sinulochmodin C

Stereoselective Total Synthesis of Nimbolide

A stereoselective total synthesis of nimbolide has been achieved in a convergent, 11-step sequence from α-methyl-(R)-carvone. The strategy relied on a stereoselective palladium-catalyzed borylative Heck cyclization where the A-ring of the nimbolide core was constructed while simultaneously performing oxidation at C(28). Selective manipulations delivered a fully decorated decalin moiety on large scale. Then, a stereoretentive etherification reaction brought together two fragments and forged the critical C-O bond with high selectivity. Finally, a regioselective radical cyclization and late-stage lactonization completed the total synthesis of nimbolide.

Synthetic Studies toward the Total Synthesis of Scabrolide A

Herein, we report a concise route to the [5-5-6]-fused tricyclic core of scabrolide A and our efforts toward the construction of the fourth cycloheptane ring of the molecule via a 7-endo-trig radical cyclization. The tricyclic cyclohexenone core was assembled by a ring-closing metathesis (RCM) reaction followed by oxidation and concomitant isomerization of the double bond. These promising results have potential implications in the synthesis of similar tricyclic cores of many other congeners within this family of furanobutenolide-derived polycyclic cembranoids and norcembranoids.

Recent Advances in Synthesis of the Polycyclic Norcembranoid and Cembranoid Diterpenoids

The C19 norcembranoid and C20 cembranoid diterpenoids represent an intriguing class of natural products found in both marine and terrestrial environments. These complexes, with a highly oxygenated state and compact polycyclic structures, have captured the synthetic interests due to their unique bioactivities. Over the past two decades, the total synthesis of these natural products has been a challenging task, driven by their intricate structural features. This review systematically summarizes the recent advances in the total synthesis of various norcembranoid and cembranoid diterpenoids, focusing on their transformations and the latest breakthroughs in this field.

Construction of the Tetracyclic Skeleton of Polycyclic Norcembranoids Sinudenoids B-D Via Ireland-Claisen Rearrangement

Sinudenoids B-D represent a biologically significant and structurally intricate family of natural products distinguished by their unique [5-5-6-6] tetracyclic skeleton. Herein, we present an efficient strategy for the asymmetric synthesis of their [5-5-6-6] tetracyclic framework. Key features of our approach include a convergent synthetic strategy driven by esterification, a pivotal Ireland-Claisen rearrangement to construct a C11-C12 bond, followed by efficient lactonization and isomerization, and a ring-closing metathesis to complete the [5-5-6-6] tetracyclic skeleton.

Total Syntheses of Scabrolide B, Ineleganolide, and Related Norcembranoids

Concise total syntheses of several 5/7/6 norcembranoids, including ineleganolide, scabrolide B, sinuscalide C, and fragilolide A have been achieved through a fragment coupling/ring closure approach. The central seven-membered ring was forged through sequential Mukaiyama-Michael/aldol reactions using norcarvone and a decorated bicyclic lactone incorporating a latent electrophile. Subsequent manipulations installed the reactive enedione motif and delivered scabrolide B in 11 steps from a chiral pool-derived enone. Finally, ineleganolide, sinuscalide C, and fragilolide A were each accessed in one additional step.

Theoretical Study on the Biosynthesis of the Mandapamates: Mechanistic Insights Using Density Functional Theory

Density functional theory (B3LYP-D3(BJ) and ωB97XD) calculations have been used to assess the stereochemical outcomes of the proposed transannular [4 + 2] cycloaddition pathway for the biosynthesis of mandapamate and isomandapamate from macrocyclic intermediates. Calculations reveal that the topological shift between macrocyclic conformers is vital in controlling the stereoselectivity of the downstream steps toward the isomeric mandapamates. A stepwise 4 + 2 type process is energetically favored over a concerted [4 + 2] pathway at room temperature, and is consistent with the stereochemistries found in the natural products.

Total Synthesis of the Norcembranoid Scabrolide B and Its Transformation into Sinuscalide C, Ineleganolide, and Horiolide

It was recognized only recently that the sister norcembranoids scabrolides A and B have notably different carbotricyclic scaffolds. Therefore, our synthesis route leading to scabrolide A could not be extended to its sibling. Rather, a conceptually new approach had to be devised that relied on a challenging intramolecular alkenylation of a ketone to forge the congested central cycloheptene ring at the bridgehead enone site; the required cyclization precursor was attained by a lanthanide-catalyzed Mukaiyama-Michael addition. The dissonant 1,4-oxygenation pattern was then installed by allylic rearrangement/oxidation of the enone, followed by suprafacial 1,3-transposition. Synthetic scabrolide B was transformed into sinuscalide C by dehydration and into ineleganolide by base-mediated isomerization/oxa-Michael addition, which has potential biosynthetic implications; under basic conditions, the latter compound converts into horiolide by an intricate biomimetic cascade.

Systematic Route to Construct the 5-5-6 Tricyclic Core of Furanobutenolide-Derived Cembranoids and Norcembranoids

Herein, we present a highly efficient method for constructing the intricate 5-5-6 fused ring system commonly found in the polycyclic furanobutenolide-derived cembranoid and norcembranoid natural product family with remarkable diastereoselectivity, utilizing an intramolecular Diels-Alder reaction as the cornerstone. Notably, employing a propargyl ether tether as the dienophile yields significant enhancements in the transformation process compared to its propargyl ester counterpart, as demonstrated in our previous total synthesis of havellockate. This advancement holds promising implications for future investigations, offering a streamlined pathway for rapidly assembling the tricyclic core characteristic of this diverse family of natural products.

Total synthesis and structure-antifouling activity relationship of scabrolide F

An efficient synthetic strategy for scabrolide F (7), a norcembranolide diterpene that was isolated from the Taiwanese soft coral Sinularia scabra, has only recently been reported by our group. Herein, we report details of the first total synthesis of 7. The tetrahydrofuran domain of 7 was stereoselectively constructed via the 5-endo-tet cyclization of a hydroxy vinyl epoxide. The reaction of alkyl iodide 30 with dithiane 38, followed by the introduction of an alkene moiety, afforded allylation precursor 41. The coupling of alkyl iodide 42 and allylic stannane 43 was examined as a model experiment of allylation. Because the desired allylated product 44 was not obtained, an alternative synthetic route toward 7 was investigated instead. In the second synthetic approach, fragment-coupling between alkyl iodide 56 and aldehyde 58, macrolactonization, and transannular ring-closing metathesis were used as the key steps to achieve the first total synthesis of 7. We hope that this synthetic strategy provides access to the total synthesis of other macrocyclic norcembranolides. We also evaluated the antifouling activity and toxicity of 7 and its synthetic intermediates toward the cypris larvae of the barnacle Amphibalanus amphitrite. This study is the first to report the antifouling activity of norcembranolides as well as the biological activity of 7.

Divergent Synthesis of Scabrolide A and Havellockate via an exo-exo-endo Radical Cascade

Here we report a concise and divergent synthesis of scabrolide A and havellockate, representative members of polycyclic marine natural product furano(nor)cembranoids. The synthesis features a highly efficient exo-exo-endo radical cascade. Through the generation of two rings, three C-C bonds, and three contiguous stereocenters in one step, this remarkable transformation not only assembles the bowl-shaped, common 6-5-5 fused ring system from simple building blocks but also precisely installs the functionalities at desired positions and sets the stage for further divergent preparation of both target molecules. Further studies reveal that the robust and unusual 6-endo radical addition in the cascade is likely facilitated by the rigidity of the substrate.

Convenient Access to a Strained Bicyclic Enone: A Concise and Improved Formal Synthesis of Ineleganolide

The norcembranoid and cembranoid diterpenoids represent an intriguing class of natural products isolated from marine sources. Their chemical synthesis has been a challenging and exciting field of research over the past two decades, owing largely to their structural complexity. We recently disclosed a total synthesis of a member of this class, ineleganolide, in a 23 step longest linear sequence. In search of a shorter, more efficient route, we have devised a new strategy for the synthesis of a key bicyclic enone. Disclosed herein is our improved synthesis of this strained intermediate, completing the formal synthesis of ineleganolide in only 14 steps, thereby shortening our previous synthesis by 9 steps. Dedicated to Prof. Thomas Maimone on his receipt of the Tetrahedron Young Investigator Award 2024.

Marine natural products

Covering: January to the end of December 2022This review covers the literature published in 2022 for marine natural products (MNPs), with 645 citations (633 for the period January to December 2022) referring to compounds isolated from marine microorganisms and phytoplankton, green, brown and red algae, sponges, cnidarians, bryozoans, molluscs, tunicates, echinoderms, the submerged parts of mangroves and other intertidal plants. The emphasis is on new compounds (1417 in 384 papers for 2022), together with the relevant biological activities, source organisms and country of origin. Pertinent reviews, biosynthetic studies, first syntheses, and syntheses that led to the revision of structures or stereochemistries, have been included. An analysis of NP structure class diversity in relation to biota source and biome is discussed.

Structure-Unit-Based Total Synthesis of (-)-Sinulochmodin C

Herein we report a structure-unit-based asymmetric total synthesis of sinulochmodin C, a norcembranoid diterpenoid bearing a transannular strained ether bridge β-keto tetrahydrofuran moiety. Our synthetic route features an intramolecular double Michael addition to construct stereospecifically the [7,6,5,5] tetracyclic skeleton, a vinylogous hydroxylation/oxidation procedure or a stereospecific epoxide opening/oxidation sequence to establish the γ-keto enone intermediate, a Lewis acid/Brønsted acid mediated transannular oxa-Michael addition to fuse the β-keto tetrahydrofuran moiety, a Mukaiyama hydration/Pd-C hydrogenation to reverse the C1-configuration of the isopropenyl unit, and a bioinspired transformation of sinulochmodin C into scabrolide A.

Total Syntheses of Scabrolide A and Yonarolide

The concise total syntheses of oxidized norcembranoid terpenoids (-)-scabrolide A and (-)-yonarolide have been accomplished in 10 and 11 steps, respectively. The carbocyclic skeleton was efficiently constructed from two chiral-pool-derived fragments, including a [5,5]-bicyclic lactone accessed through a powerful Ni-catalyzed pentannulation of functionalized cyclopentenone with methylenecyclopropane and subsequent fragmentation. Additional features included a Liebeskind-Srogl coupling, induction of a cyclization/elimination cascade by a zinc-amido base, and installation of a sensitive enedione motif by late-stage γ-oxidation.

A Convergent Total Synthesis of (+)-Ineleganolide

We report the total synthesis of the furanobutenolide-derived diterpenoid (+)-ineleganolide. The synthetic approach relies on a convergent strategy based on the coupling of two enantioenriched fragments, which are derived from (-)-linalool and (+)-norcarvone, respectively. A high-yielding, one-step Michael addition and aldol cascade furnishes a pentacyclic framework as a single diastereomer, thereby overcoming previous challenges in controlling stereochemistry. The endgame features an O2-facilitated C-H oxidation and a samarium diiodide-induced semipinacol rearrangement to furnish the highly rigid central seven-membered ring.