Stereodivergent Synthesis of Perhydrobenz[e]indene Terpenoids

Cheng Yang; Christopher J. Huck; Yaroslav D. Boyko; Shang Ning; Uroš Vezonik; Alexander S. Shved; Scott E. Denmark; Binh Khanh Mai; David Sarlah

doi:10.1021/jacs.5c07068

Stereodivergent Synthesis of Perhydrobenz[e]indene Terpenoids

Cheng Yang
, Christopher J. Huck
, Yaroslav D. Boyko
, Shang Ning
, Uroš Vezonik
, Alexander S. Shved
, Scott E. Denmark
, Binh Khanh Mai
, David Sarlah

Research output: Contribution to journal › Article › peer-review

Abstract

The development of stereodivergent synthetic methods has enormous potential in total synthesis owing to their ability to unify and streamline strategies toward a large collection of natural products. In this article, we describe a stereodivergent Rautenstrauch rearrangement in which a choice of Au- or Pd-based catalyst provided a uniform entry toward all four possible stereoisomers of the 6/6/5 tricyclic core of perhydrobenz[e]indene terpenoids. Alongside the development of a general strategy to access the core scaffolds of these unique families of metabolites, computational studies rationalized the observed diastereoselectivity during key cyclizations. Ultimately, these studies led to the total syntheses of several distinctive perhydrobenz[e]indene natural products, including N-acetyl-polyveoline, dasyscyphin B, and rhabdastin B.

Original language	English (US)
Pages (from-to)	24847-24856
Number of pages	10
Journal	Journal of the American Chemical Society
Volume	147
Issue number	28
Early online date	Jul 7 2025
DOIs	https://doi.org/10.1021/jacs.5c07068
State	E-pub ahead of print - Jul 7 2025

ASJC Scopus subject areas

Catalysis
Biochemistry
General Chemistry
Colloid and Surface Chemistry

Online availability

10.1021/jacs.5c07068

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@article{232ba2d24d134acfbe8150990ae49ab2,

title = "Stereodivergent Synthesis of Perhydrobenz[e]indene Terpenoids",

abstract = "The development of stereodivergent synthetic methods has enormous potential in total synthesis owing to their ability to unify and streamline strategies toward a large collection of natural products. In this article, we describe a stereodivergent Rautenstrauch rearrangement in which a choice of Au- or Pd-based catalyst provided a uniform entry toward all four possible stereoisomers of the 6/6/5 tricyclic core of perhydrobenz[e]indene terpenoids. Alongside the development of a general strategy to access the core scaffolds of these unique families of metabolites, computational studies rationalized the observed diastereoselectivity during key cyclizations. Ultimately, these studies led to the total syntheses of several distinctive perhydrobenz[e]indene natural products, including N-acetyl-polyveoline, dasyscyphin B, and rhabdastin B.",

author = "Cheng Yang and Huck, \{Christopher J.\} and Boyko, \{Yaroslav D.\} and Shang Ning and Uro{\v s} Vezonik and Shved, \{Alexander S.\} and Denmark, \{Scott E.\} and Mai, \{Binh Khanh\} and David Sarlah",

note = "Financial support for this work was provided by Rice University, University of Illinois (Seemon H. Pines Graduate Fellowship to Y.B.), Bristol-Myers Squibb (predoctoral fellowship to Y.B.), the National Science Foundation (predoctoral fellowship to C.J.H), and Robert C. and Carolyn J. Springborn (predoctoral fellowship to C.J.H). We acknowledge funding from the National Institutes of Health (grant GM144489 to D.S.) and the Cancer Prevention and Research Institute of Texas (CPRIT, grant RR240019 to D.S.) and the National Science Foundation (grant CHE 2154237 to S.E.D.). We thank the SCS NMR Lab, Dr. D. Olson, and Dr. L. Zhu (University of Illinois) for technical support and NMR spectroscopic assistance. We also thank F. Sun for their assistance with mass spectrometric analysis. Financial support for this work was provided by the National Institutes of Health (GM144489), the Cancer Prevention and Research Institute of Texas (CPRIT) grant (RR240019), and the National Science Foundation (CHE 2154237).",

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doi = "10.1021/jacs.5c07068",

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T1 - Stereodivergent Synthesis of Perhydrobenz[e]indene Terpenoids

AU - Yang, Cheng

AU - Huck, Christopher J.

AU - Boyko, Yaroslav D.

AU - Ning, Shang

AU - Vezonik, Uroš

AU - Shved, Alexander S.

AU - Denmark, Scott E.

AU - Mai, Binh Khanh

AU - Sarlah, David

N1 - Financial support for this work was provided by Rice University, University of Illinois (Seemon H. Pines Graduate Fellowship to Y.B.), Bristol-Myers Squibb (predoctoral fellowship to Y.B.), the National Science Foundation (predoctoral fellowship to C.J.H), and Robert C. and Carolyn J. Springborn (predoctoral fellowship to C.J.H). We acknowledge funding from the National Institutes of Health (grant GM144489 to D.S.) and the Cancer Prevention and Research Institute of Texas (CPRIT, grant RR240019 to D.S.) and the National Science Foundation (grant CHE 2154237 to S.E.D.). We thank the SCS NMR Lab, Dr. D. Olson, and Dr. L. Zhu (University of Illinois) for technical support and NMR spectroscopic assistance. We also thank F. Sun for their assistance with mass spectrometric analysis. Financial support for this work was provided by the National Institutes of Health (GM144489), the Cancer Prevention and Research Institute of Texas (CPRIT) grant (RR240019), and the National Science Foundation (CHE 2154237).

PY - 2025/7/7

Y1 - 2025/7/7

N2 - The development of stereodivergent synthetic methods has enormous potential in total synthesis owing to their ability to unify and streamline strategies toward a large collection of natural products. In this article, we describe a stereodivergent Rautenstrauch rearrangement in which a choice of Au- or Pd-based catalyst provided a uniform entry toward all four possible stereoisomers of the 6/6/5 tricyclic core of perhydrobenz[e]indene terpenoids. Alongside the development of a general strategy to access the core scaffolds of these unique families of metabolites, computational studies rationalized the observed diastereoselectivity during key cyclizations. Ultimately, these studies led to the total syntheses of several distinctive perhydrobenz[e]indene natural products, including N-acetyl-polyveoline, dasyscyphin B, and rhabdastin B.

AB - The development of stereodivergent synthetic methods has enormous potential in total synthesis owing to their ability to unify and streamline strategies toward a large collection of natural products. In this article, we describe a stereodivergent Rautenstrauch rearrangement in which a choice of Au- or Pd-based catalyst provided a uniform entry toward all four possible stereoisomers of the 6/6/5 tricyclic core of perhydrobenz[e]indene terpenoids. Alongside the development of a general strategy to access the core scaffolds of these unique families of metabolites, computational studies rationalized the observed diastereoselectivity during key cyclizations. Ultimately, these studies led to the total syntheses of several distinctive perhydrobenz[e]indene natural products, including N-acetyl-polyveoline, dasyscyphin B, and rhabdastin B.

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 28

ER -

Stereodivergent Synthesis of Perhydrobenz[e]indene Terpenoids

Abstract

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