Antroquinonol A: Scalable Synthesis and Preclinical Biology of a Phase 2 Drug Candidate

Villaume, Matthew T.; Sella, Eran; Saul, Garrett; Borzilleri, R. M.; Fargnoli, Joseph; Johnston, Kathy; Zhang, Haiying; Fereshteh, Mark; Dhar, T. G. Murali; Baran, Phil S.

doi:10.1021/acscentsci.5b00345

Cited by 34 publications

(33 citation statements)

References 28 publications

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“…21 Scalable total syntheses have allowed us to identify natural products with erroneously reported potency. 22 This study, much akin to the axinellamines, 3c represents a rare case where natural products reported to lack biological activities have surfaced as antibacterial agents. Marine isolates like 1 , 3 , and 4 are difficult to isolate or grow in a cell culture.…”

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confidence: 98%

11-Step Total Synthesis of Araiosamines

2016

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A concise route to a small family of exotic marine alkaloids known as the araiosamines has been developed, and their absolute configuration has been assigned. The dense array of functionality, high polarity, and rich stereochemistry coupled with equilibrating topologies present an unusual challenge for chemical synthesis and an opportunity for innovation. Key steps involve the use of a new reagent for guanidine installation, a remarkably selective C–H functionalization, and a surprisingly simple final step that intersects a presumed biosynthetic intermediate. Synthetic araiosamines were shown to exhibit potency against Gram-positive and -negative bacteria despite a contrary report of no activity.

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confidence: 98%

11-Step Total Synthesis of Araiosamines

2016

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“…Although we were able to repeat the previously reported Michael reaction of 4,4‐dimethoxycyclohexa‐2,5‐dien‐1‐one by using Me 2 Zn, Cu(OTf) 2 , and chiral ligand ( S , R , R )‐ B to obtain the desired conjugate addition product ( R )‐3‐methyl‐4,4‐dimethoxycyclohex‐2‐en‐1‐one in 72 % yield with 99 % ee , the enantioselective Michael reaction of 2a was problematic, because the four electron‐donating methoxy substituents make 2a a poor Michael acceptor toward a nucleophilic reagent . The similar problem of reluctant Michael reactions of highly electron‐rich system has also been encountered by the Baran and Chen groups , …”

Section: Resultsmentioning

confidence: 90%

“…[ α ] D 25 = +45.0 ( c = 0.48, CHCl 3 ); ref . [ α ] D 18 = +72.7 ( c = 0.28, CHCl 3 ); ref . [ α ] D 20 = +52.0 ( c = 0.364, MeOH); ref .…”

Section: Methodsmentioning

confidence: 99%

“…In contrast, our first‐generation synthesis of (±)‐antroquinonol and (±)‐antroquinonol D only requires six steps and uses Michael reactions of the appropriate benzoquinone monoketals with a dimethylcuprate reagent as the strategic key step . In our preliminary study, we indicated that the asymmetric Michael addition of 3,4,4‐trimethoxycyclohexadienone with a methylmetal reagent could be carried out and that the 1,4‐adduct could be elaborated through a similar procedure to give optically active antroquinonol D. Recently, Dhar, Baran, and co‐workers examined many routes to synthesize (+)‐antroquinonol but found the asymmetric Michael reaction of the appropriate benzoquinone monoketal as the only viable method . Their report has prompted us to disclose our independent research on the enantioselective Michael reactions of benzoquinone monoketals 2a – 2j (Tables and ), which is a continuation of our previous studies and can be applied to the syntheses of (+)‐antroquinonol and (+)‐antroquinonol D (Scheme ).…”

Section: Introductionmentioning

confidence: 97%

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Synthesis of (+)‐Antroquinonol and Analogues by Using Enantioselective Michael Reactions of Benzoquinone Monoketals

Hsu

Fang

2016

Eur J Org Chem

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(+)‐Antroquinonol is an anticancer agent that was first isolated from the rare mushroom Antrodia cinnamomea, which is indigenous to Taiwan. In this study, (+)‐antroquinonol is synthesized from benzoquinone monoketals by using an enantioselective Michael reaction as the strategic step followed by an alkylation, reduction, hydrolysis of a ketal, and inversion of configuration sequence of reactions. Because the enantioselective Michael reaction to the electron‐rich 2,3,4,4‐tetramethoxycyclohexa‐2,5‐dien‐1‐one was problematic, the reaction was facilitated by introducing an electron‐withdrawing chloro group to replace the methoxy substituent at the C‐2 position. Upon treatment with K2CO3 in MeOH in the final step, the chloro substituent was then replaced by the methoxy group concurrently with the inversion of configuration at C‐6 to afford (+)‐antroquinonol in a one‐pot operation. This modular type of synthetic method can also be applied to efficient total syntheses of other antroquinonol analogues that contain the 4‐hydroxycyclohex‐2‐enone core by starting from their corresponding benzoquinone monoketals.

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“…In those cases, further dehydrogenation with a stronger oxidant DDQ rather than mild dry air (O 2 ) was required to reach the final aromatized products as exemplified with adducts 15-17, 23, and 34. Some Michael acceptors highlighted in green in adducts 11, 18,26,27,32,38, and 42 are quinone monoketals, which have been known to possess redox activity, [14] and could play dual functions to provide both desired and redox products. Taking acceptor 43 as an example (Scheme 3 a), when it was coupled with donor 5 under standard conditions, the regular product 11 was formed in 51 % yield accompanied with a redox product 44 in 44 % yield.…”

Section: Angewandte Chemiementioning

confidence: 99%

Development of a Cross‐Conjugated Vinylogous [4+2] Anionic Annulation and Application to the Total Synthesis of Natural Antibiotic (±)‐ABX

Huang

Shia

2020

Angew Chem Int Ed

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The cross‐conjugated vinylogous [4+2] anionic annulation has been newly developed, the cascade process of which has a high preference for regiochemical control and chemoselectivity, giving rise to exclusively Michael‐type adducts in moderate to high yields (up to 94 %, 35 examples). By making use of this approach as a key operation, the first total synthesis of natural antibiotic ABX, in racemic form, has been successfully achieved in a concise 7‐step sequence with an overall yield of about 20 %.

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Antroquinonol A: Scalable Synthesis and Preclinical Biology of a Phase 2 Drug Candidate

Cited by 34 publications

References 28 publications

11-Step Total Synthesis of Araiosamines

11-Step Total Synthesis of Araiosamines

Synthesis of (+)‐Antroquinonol and Analogues by Using Enantioselective Michael Reactions of Benzoquinone Monoketals

Development of a Cross‐Conjugated Vinylogous [4+2] Anionic Annulation and Application to the Total Synthesis of Natural Antibiotic (±)‐ABX

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