Annulative Methods in the Synthesis of Complex Meroterpene Natural Products

Shen, Xingyu; Thach, Danny Q.; Ting, Chi P.; Maimone, Thomas J.

doi:10.1021/acs.accounts.0c00781

Cited by 14 publications

(10 citation statements)

References 98 publications

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“…Bridged bicyclononane carbon frameworks are a privileged structural motif found in over 1000 natural productsmany with therapeutic relevance to human disease (Figure a). − Our research group has a longstanding interest in the synthesis of natural products containing the bridged bicyclo[3.3.1]nonane core. , In this context, synthetic endeavors toward these molecular architectures have largely paralleled, or been inspired by, biosynthesisoften first installing substituents, and then constructing the core at a later stage (Figure b). Indeed, this synthetic blueprint has culminated in notable syntheses of many complex bicyclo[3.3.1]nonane-containing natural products. , As a departure from this synthetic logic, we aimed to develop a divergent synthetic strategy to incorporate side chain fragments about the bicyclo[3.3.1]nonane core at a late stage.…”

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confidence: 99%

Taming Shapeshifting Anions: Total Synthesis of Ocellatusone C

Sanchez

Maimone

2022

J. Am. Chem. Soc.

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Guided by a synthetic design aimed at late-stage diversification, we report the preparation of unusual shapeshifting anions and their subsequent application to the total synthesis of the polyketide natural product ocellatusone C. Site-selective core functionalization of a readily accessible bicyclo[3.3.1]nonane architecture sets the stage for shape-selective side chain installation via a nonfluxional π-allyl Pd-complex derived from a barbaralyl-type anion. Several interesting chemical findings, including substituent-dependent bridged bicycloisomerism and the isolation of a stabilized, 3° carbon-bound Pd-ketone enolate complex, are reported.

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confidence: 99%

Taming Shapeshifting Anions: Total Synthesis of Ocellatusone C

Sanchez

Maimone

2022

J. Am. Chem. Soc.

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“…Hyperforin-like structures are a large family of meroterpenes that share a challenging molecular caged motif. A recent innovative synthetic strategy based on an annulative approach of polycyclic polyprenylated acylphloroglucinol (PPAP) meroterpenoids with 3,5-dimethylorsellinic (DMOA) was reported as shown in Scheme 5 [ 73 ]. The synthesis commenced with the readily available methylcyclopenenone synthon, which was subjected to sequential 1,4-copper-mediated conjugate addition reaction, namely formation of the lithium enolate followed by alkylative enolate trapping to generate the substituted cyclopetanone 37 , which was subjected to further α-alkylated to furnish the highly substituted cyclopetanone 38 .…”

Section: Chemistry and Biological Activities Of Selected Meroterpenoidsmentioning

confidence: 99%

“…A similar approach has been applied to the caged meroterpenoid garsubellin A ( 104, Scheme 6 ) [ 73 ]. The total synthesis was initiated with methylcyclopenenone, which was α-prenylated to generate compound 47 , followed by 1,2 Grignard reaction to access allylic alcohol 48 .…”

Section: Chemistry and Biological Activities Of Selected Meroterpenoidsmentioning

confidence: 99%

Recent Advances in Chemistry and Antioxidant/Anticancer Biology of Monoterpene and Meroterpenoid Natural Product

Barras,

Ling,

Rivas

2024

Molecules

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Monoterpenes and meroterpenes are two large classes of isoprene-based molecules produced by terrestrial plants and unicellular organisms as diverse secondary metabolites. The global rising incidence of cancer has led to a renewed interest in natural products. These monoterpenes and meroterpenes represent a novel source of molecular scaffolds that can serve as medicinal chemistry platforms for the development of potential preclinical leads. Furthermore, some of these natural products are either abundant, or their synthetic strategies are scalable as it will be indicated here, facilitating their derivatization to expand their scope in drug discovery. This review is a collection of representative updates (from 2016–2023) in biologically active monoterpene and meroterpenoid natural products and focuses on the recent findings of the pharmacological potential of these bioactive compounds as well as the newly developed synthetic strategies employed to access them. Particular emphasis will be placed on the anticancer and antioxidant potential of these compounds in order to raise knowledge for further investigations into the development of potential anti-cancer therapeutics. The mounting experimental evidence from various research groups across the globe regarding the use of these natural products at pre-clinical levels, renders them a fast-track research area worth of attention.

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“…Hexacyclic enamine 10 in turn could arise from the stereoselective coupling of tetracycle 12 and a benzyl halide (see 11 ). Finally, we sought to develop an annulative process to merge dianion 13 and a suitable two-carbon bis-electrophile to generate tetracycle 12 while remaining cognizant of regio- and stereoselectivity concerns during such a process . Herein, we explore elements of this blueprint, culminating in the first total synthesis of caulamidine A ( 1 ) in 11 steps, rigorously confirming both its structure and its absolute configuration.…”

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Enantioselective Total Synthesis of (−)-Caulamidine A

Zhu

Maimone

2023

J. Am. Chem. Soc.

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Marine bryozoans continue to provide architecturally fascinating halogenated alkaloids that pose unique challenges for chemical synthesis. The antimalarial alkaloids caulamidines A and B, recently isolated from Caulibugula intermis, contain an intricate bis-amidine core and a chlorine-bearing neopentylic stereocenter. Compared to topologically similar C 20 bis-(cyclotryptamine) alkaloids, caulamidines possess an additional carbon atom of unknown biosynthetic origins, which renders their entire skeleton nonsymmetric and nondimeric. Herein, we report the first total synthesis of caulamidine A and confirm its absolute configuration. Key chemical findings include the exploitation of glycol bistriflate to facilitate a rapid, diastereoselective ketone-amidine annulation reaction and a highly diastereoselective hydrogen atom transfer to correctly establish the key chlorinebearing stereogenic center.

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Annulative Methods in the Synthesis of Complex Meroterpene Natural Products

Cited by 14 publications

References 98 publications

Taming Shapeshifting Anions: Total Synthesis of Ocellatusone C

Taming Shapeshifting Anions: Total Synthesis of Ocellatusone C

Recent Advances in Chemistry and Antioxidant/Anticancer Biology of Monoterpene and Meroterpenoid Natural Product

Enantioselective Total Synthesis of (−)-Caulamidine A

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