Remarkable Activity of a Novel Cyclic Seleninate Ester as a Glutathione Peroxidase Mimetic and Its Facile in Situ Generation from Allyl 3-Hydroxypropyl Selenide

Back, Thomas G.; Moussa, Ziad

doi:10.1021/ja028030k

Cited by 148 publications

(84 citation statements)

References 19 publications

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“…[3][4][5][6] However, its use under nonenzymic conditions as a catalyst for hydrogen peroxide oxidation of thiols to disulfides gave poor results. Recently, Back et al 7,8 have demonstrated the exceptional glutathione peroxidase-like activity of the simple bis(3-hydroxypropyl) selenide and the unexpected role of its oxidation product, spirodioxaselenanone, as an intermediate in the catalytic redox cycle for GPx.In view of the known role of organoselenium compounds in biological systems, [9][10][11][12] in addition to their unique characteristics in organic synthesis, 13 the design and synthesis of novel organoselenium compounds with potential biological activity constitutes an ongoing challenge. Recently, we have found that in situ prepared selenium dichloride, readily obtained from elemental selenium and sulfuryl chloride, 14 undergoes smooth 1,2-addition to the triple bond of various propargylic alcohols resulting in the formation of symmetrical (Z,Z)-bis(1-hydroxymethyl-2-chlorovinyl) selenides 1 in high yields and in completely regio-and stereospecific manner (Scheme 1).…”

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Synthesis of Water-Soluble Vinyl Selenides and Their High Glutathione Peroxidase (GPx)-Like Antioxidant Activity

et al. 2013

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A convenient procedure for the synthesis of novel bis-(1-hydroxymethyl-2-halo-3-hydroxy-1-propylene) selenides has been developed. On oxidation these compounds form novel seleno-spiro compounds and their glutathione peroxidase mimetic activity has been studied. They promote the hydrogen peroxide oxidation of phenylmethanethiol to the corresponding disulfide via a catalytic cycle.Key words: alkynes, selenium, oxidation, spiro compounds, diols Glutathione peroxidase (GPx) is a selenoenzyme that protects cells by catalyzing the reduction of peroxides with the stoichiometric reductant glutathione. 1The enzyme catalytic site includes a selenocysteine residue in which the selenium undergoes a redox cycle involving the selenolate anion as the active form, which reduces hydroperoxides. The selenol is first oxidized to a selenenic acid EnzSeOH, which reacts with reduced glutathione GSH to form the selenyl sulfide EnzSeSG. A second glutathione then regenerates the active form of the enzyme by attacking the EnzSeSG to form the oxidized glutathione GSSG. The overall catalytic cycle is depicted in Figure 1. Ebselen [2-phenyl-1,2-benzoisoselenazol-3(2H)-one] has been known as a mimetic of glutathione peroxidase (GPx), able to interact with active oxygen species present in living cells. [3][4][5][6] However, its use under nonenzymic conditions as a catalyst for hydrogen peroxide oxidation of thiols to disulfides gave poor results. Recently, Back et al. 7,8 have demonstrated the exceptional glutathione peroxidase-like activity of the simple bis(3-hydroxypropyl) selenide and the unexpected role of its oxidation product, spirodioxaselenanone, as an intermediate in the catalytic redox cycle for GPx.In view of the known role of organoselenium compounds in biological systems, [9][10][11][12] in addition to their unique characteristics in organic synthesis, 13 the design and synthesis of novel organoselenium compounds with potential biological activity constitutes an ongoing challenge. Recently, we have found that in situ prepared selenium dichloride, readily obtained from elemental selenium and sulfuryl chloride, 14 undergoes smooth 1,2-addition to the triple bond of various propargylic alcohols resulting in the formation of symmetrical (Z,Z)-bis(1-hydroxymethyl-2-chlorovinyl) selenides 1 in high yields and in completely regio-and stereospecific manner (Scheme 1). 15,16Of special mechanistic interest is the observed syn-addition and anti-Markovnikov orientation.Scheme 1 Regio-and stereospecific synthesis of functionalized divinyl selenides Inspired by the above findings, we applied our regio-and stereospecific SeCl 2 addition protocol in the planned preparation of novel GPx-mimetics of spirodioxaselenurane type. 8Those divinyl selenides formed by syn-addition of SeCl 2 to the triple bond, which do not bear a vicinal hydrogen capable of cis elimination, gave stable selenoxides 2a,b and selenone 3 in good yield upon oxidation with tert-butyl hydroperoxide or with 2 equivalents of MCPBA, respectively (Scheme 2). The divinyl s...

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Synthesis of Water-Soluble Vinyl Selenides and Their High Glutathione Peroxidase (GPx)-Like Antioxidant Activity

et al. 2013

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“…They observed that 22 actually was a pro-catalyst that generates the unusual cyclic seleninate ester 23 through a series of oxidation reactions and sigmatropic rearrangement steps upon the GPx like reaction conditions. 23 The novel heterocycle 23 was significantly more effective as a GPx mimic than ebselen 6. Furthermore, the same group also described the synthesis of selenide 24.…”

Section: Organoselenium Compoundsmentioning

confidence: 96%

Catalytic application of selenium and tellurium compounds as glutathione peroxidase enzyme mimetics

Alberto¹,

Nascimento²,

Braga³

2010

J. Braz. Chem. Soc.

138

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A glutationa peroxidase (GPx) é uma importante enzima que faz parte do sistema de defesa do organismo frente a substâncias nocivas formadas durante o metabolismo do oxigênio, como peróxidos e seus derivados. Diversas estratégias para desenvolver novos miméticos, assim como para aumentar a atividade mimética da GPx em compostos como disselenetos, selenetos e teluretos, vêm sendo propostas nos últimos anos. Nesta revisão é apresentado um balanço, dos últimos dez anos, referente ao desenvolvimento e à avaliação de catalisadores organoselênio ou organotelúrio capazes de mimetizar a atividade da GPx. Diferentes mecanismos de ação destes compostos também são apresentados, de acordo com os novos avanços desta relevante área de pesquisa.This review covers the past decade of intensive research on the design, synthesis and screening of organoselenides and tellurides as catalyst able to mimic the activity of the selenoenzyme glutathione peroxidase (GPx). This important enzyme forms part of the detoxification system in humans which deals with harmful peroxides and their byproducts formed during oxygen metabolism. Several strategies to enhance the GPx-like activity of compounds such as diselenides, selenides and tellurides have been proposed in recent years. Different mechanisms of action of these compounds are also presented in this review highlighting new advances in this exciting research field.

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“…Hence, the design, synthesis, and evaluation of small-molecule selenium compounds that mimic the biological activity of GPx have been investigated by several groups, and selected examples 2 [28], 3 [29], 4 [30], and 5 [31] are presented in Scheme 2. Various diaryl diselenides [32][33][34][35][36][37][38] and certain types of tellurium compounds as well as dendrimeric and cyclodextrin-derived organochalcogen catalysts that emulate GPx have also been reported [39][40][41][42][43][44][45][46].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of a New Five and Six Membered Selenoheterocyclic Compounds Homologues of Ebselen

Messali

Abboudi

Aouad

et al. 2011

Organic Chemistry International

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The discovery of the antioxidant activity of selenoenzyme glutathione peroxidase (GPx) has attracted growing attention in the biochemistry of selenium. Among molecules which mimic the structure of the active site of the enzyme, N-phenyl-1,2-benzisoselenazolin-3-one 1, Ebselen, exhibited useful anti-inflammatory properties. It has been extensively investigated and has undergone clinical trials as an anti-inflammatory agent. Unfortunately, Ebselen exhibits relatively poor catalytic activity, prompting attempts to design more efficacious GPx mimetics that would retain his low toxicity while manifesting improved catalytic properties. In this context, novel 1,2-benzoselenazine and 1,2-benzoselenazols, which are five and six membered homologues of Ebselen were synthesized and characterized. One structure has been proven by single crystal X-ray crystallography.

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Remarkable Activity of a Novel Cyclic Seleninate Ester as a Glutathione Peroxidase Mimetic and Its Facile in Situ Generation from Allyl 3-Hydroxypropyl Selenide

Cited by 148 publications

References 19 publications

Synthesis of Water-Soluble Vinyl Selenides and Their High Glutathione Peroxidase (GPx)-Like Antioxidant Activity

Synthesis of Water-Soluble Vinyl Selenides and Their High Glutathione Peroxidase (GPx)-Like Antioxidant Activity

Catalytic application of selenium and tellurium compounds as glutathione peroxidase enzyme mimetics

Synthesis and Characterization of a New Five and Six Membered Selenoheterocyclic Compounds Homologues of Ebselen

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