Shiu Sato scite author profile

Two epimeric rearranged ergostanes, strophasterols A and B, with an unprecedented carbon skeleton were synthesized from ergosterol, both in 17 steps via a common secosteroidal intermediate. The conversion of ergosterol into the pivotal intermediate involved an efficient acid-catalyzed double-bond migration from ring B to ring D, oxidative cleavage of the double bond, and a completely diastereoselective acyl radical cyclization to form an isolated cyclopentanone ring unique to this recently discovered family of steroidal compounds produced by mushrooms. The intermediate was transformed stereodivergently into two epimeric cyclopentane derivatives through hydrogenation using two types of catalysts. One epimer was elaborated into strophasterol B by utilizing peracid oxidation of an iodide to provide an epoxide directly, and the other epimer was elaborated into strophasterol A, which is known to be a suppressor of endoplasmic reticulum stress.

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Synthesis of Strophasterols C, E, and F

Sato

Kuwahara

2020

Org. Lett.

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The synthesis of strophasterols C, E, and F has been accomplished from a 14,15-secoergostane derivative via a 1,3-dipolar cycloaddition of a nitrile oxide intermediate to simultaneously install an isolated cyclopentane ring and a C23 oxygen functionality in a diastereoselective manner and a regio- and diastereoselective selenohydroxylation of an olefinic intermediate under thermodynamic conditions. This synthesis also enabled the stereochemical confirmation of strophasterol C.

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Total Synthesis of Diocollettines A via an Acid-Promoted Oxa-Michael–Aldol–Acetalization Cascade

et al. 2019

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A diastereo- and enantioselective total synthesis of diocollettines A with an unusual oxygen-containing tricyclic ring system has been achieved in 63% overall yield from commercially available 3-phenylpropanal via four steps. The key feature of the present synthesis is an exclusively diastereoselective cascade sequence composed of a trans-selective oxa-Michael addition of 1,3-dihydroxyacetone to a 2,3-dihydropyrylium ion intermediate, intramolecular aldol-type reaction, and intramolecular acetalization.

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Shiu Sato

Synthesis and stereochemistry of glaucoposterol A and strophasterol D

Analysis of oxidation products of α-tocopherol in extra virgin olive oil using liquid chromatography–tandem mass spectrometry

Synthesis of the Epimeric Secosteroids Strophasterols A and B

Synthesis of Strophasterols C, E, and F

Total Synthesis of Diocollettines A via an Acid-Promoted Oxa-Michael–Aldol–Acetalization Cascade

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