Synthesis and sulfur electrophilicity of the Nuphar thiaspirane pharmacophore

Norihiro Tada; Daniel J. Jansen; Matthew P. Mower; Megan M. Blewett; Jeffrey C. Umotoy; Benjamin F. Cravatt; Dennis W. Wolan; Ryan A. Shenvi

doi:https://doi.org/10.1021/acscentsci.6b00113

Synthesis and sulfur electrophilicity of the Nuphar thiaspirane pharmacophore

Norihiro Tada, Daniel J. Jansen, Matthew P. Mower, Megan M. Blewett, Jeffrey C. Umotoy, Benjamin F. Cravatt, Dennis W. Wolan, Ryan A. Shenvi

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

22 Citations (Scopus)

Abstract

We describe a general method to synthesize the iminium tetrahydrothiophene embedded in the dimeric Nuphar alkaloids. In contrast to prior studies, the sulfur atom of the thiaspirane pharmacophore is shown to be electrophilic. This a-thioether reacts with thiophenol or glutathione at ambient temperature to cleave the C-S bond and form a disulfide. Rates of conversion are proportional to the corresponding ammonium ion pKa and exhibit half-lives less than 5 h at a 5 mM concentration of thiol. A simple thiophane analogue of the Nuphar dimers causes apoptosis at single-digit micromolar concentration and labels reactive cysteines at similar levels as the unsaturated iminium "warhead". Our experiments combined with prior observations suggest the sulfur of the Nuphar dimers can react as an electrophile in cellular environments and that sulfur-triggered retrodimerization can occur in the cell.

Original language	English
Pages (from-to)	401-408
Number of pages	8
Journal	ACS central science
Volume	2
Issue number	6
DOIs	https://doi.org/10.1021/acscentsci.6b00113
Publication status	Published - 22 Jun 2016

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title = "Synthesis and sulfur electrophilicity of the Nuphar thiaspirane pharmacophore",

abstract = "We describe a general method to synthesize the iminium tetrahydrothiophene embedded in the dimeric Nuphar alkaloids. In contrast to prior studies, the sulfur atom of the thiaspirane pharmacophore is shown to be electrophilic. This a-thioether reacts with thiophenol or glutathione at ambient temperature to cleave the C-S bond and form a disulfide. Rates of conversion are proportional to the corresponding ammonium ion pKa and exhibit half-lives less than 5 h at a 5 mM concentration of thiol. A simple thiophane analogue of the Nuphar dimers causes apoptosis at single-digit micromolar concentration and labels reactive cysteines at similar levels as the unsaturated iminium {"}warhead{"}. Our experiments combined with prior observations suggest the sulfur of the Nuphar dimers can react as an electrophile in cellular environments and that sulfur-triggered retrodimerization can occur in the cell.",

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T1 - Synthesis and sulfur electrophilicity of the Nuphar thiaspirane pharmacophore

AU - Tada, Norihiro

AU - Jansen, Daniel J.

AU - Mower, Matthew P.

AU - Blewett, Megan M.

AU - Umotoy, Jeffrey C.

AU - Cravatt, Benjamin F.

AU - Wolan, Dennis W.

AU - Shenvi, Ryan A.

PY - 2016/6/22

Y1 - 2016/6/22

N2 - We describe a general method to synthesize the iminium tetrahydrothiophene embedded in the dimeric Nuphar alkaloids. In contrast to prior studies, the sulfur atom of the thiaspirane pharmacophore is shown to be electrophilic. This a-thioether reacts with thiophenol or glutathione at ambient temperature to cleave the C-S bond and form a disulfide. Rates of conversion are proportional to the corresponding ammonium ion pKa and exhibit half-lives less than 5 h at a 5 mM concentration of thiol. A simple thiophane analogue of the Nuphar dimers causes apoptosis at single-digit micromolar concentration and labels reactive cysteines at similar levels as the unsaturated iminium "warhead". Our experiments combined with prior observations suggest the sulfur of the Nuphar dimers can react as an electrophile in cellular environments and that sulfur-triggered retrodimerization can occur in the cell.

AB - We describe a general method to synthesize the iminium tetrahydrothiophene embedded in the dimeric Nuphar alkaloids. In contrast to prior studies, the sulfur atom of the thiaspirane pharmacophore is shown to be electrophilic. This a-thioether reacts with thiophenol or glutathione at ambient temperature to cleave the C-S bond and form a disulfide. Rates of conversion are proportional to the corresponding ammonium ion pKa and exhibit half-lives less than 5 h at a 5 mM concentration of thiol. A simple thiophane analogue of the Nuphar dimers causes apoptosis at single-digit micromolar concentration and labels reactive cysteines at similar levels as the unsaturated iminium "warhead". Our experiments combined with prior observations suggest the sulfur of the Nuphar dimers can react as an electrophile in cellular environments and that sulfur-triggered retrodimerization can occur in the cell.

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VL - 2

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JO - ACS central science

JF - ACS central science

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ER -

Synthesis and sulfur electrophilicity of the Nuphar thiaspirane pharmacophore

Abstract

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