Pyridoxine‐Derived Organoselenium Compounds with Glutathione Peroxidase‐Like and Chain‐Breaking Antioxidant Activity

Singh, Vijay Pal; Poon, Jia‐fei; Butcher, Ray J.; Engman, Lars

doi:10.1002/chem.201403229

Cited by 54 publications

(36 citation statements)

References 80 publications

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“…In the case of pyridoxine-derived diselenide 3b, such a selone was in fact isolable and the structure determined by X-ray crystallography. 11 Diselenides 3b and 4c were both two-fold more active than ebselen when evaluated in the coupled reductase assay. With the perspective to get some more insight into the structural requirements for the high GPxactivity of pyridoxine-derived diselenides and improve the performance of compound 3, we have introduced bromine into the remaining vacant pyridinolic position 6.…”

Section: Introductionmentioning

confidence: 98%

Effect of a Bromo Substituent on the Glutathione Peroxidase Activity of a Pyridoxine-like Diselenide

et al. 2015

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In search for better mimics of the glutathione peroxidase enzymes, pyridoxine-like diselenides 6 and 11, carrying a 6-bromo substituent, were prepared. Reaction of 2,6-dibromo-3-pyridinol 5 with sodium diselenide provided 6 via aromatic nucleophilic substitution of the 2-bromo substituent. LiAlH4 caused reduction of all four ester groups and returned 11 after acidic workup. The X-ray structure of 6 showed that the dipyridyl diselenide moiety was kept in an almost planar, transoid conformation. According to NBO-analysis, this was due to weak intramolecular Se···O (1.1 kcal/mol) and Se···N-interactions (2.5 kcal/mol). That the 6-bromo substituent increased the positive charge on selenium was confirmed by NPA-analysis and seen in calculated and observed (77)Se NMR-shifts. Diselenide 6 showed a more than 3-fold higher reactivity than the corresponding des-bromo compound 3a and ebselen when evaluated in the coupled reductase assay. Experiments followed for longer time (2 h) confirmed that diselenide 6 is a better GPx-catalyst than 11. On the basis of (77)Se-NMR experiments, a catalytic mechanism for diselenide 6 was proposed involving selenol, selenosulfide and seleninic acid intermediates. At low concentration (10 μM) where it showed only minimal toxicity, it could scavenge ROS produced by MNC- and PMNC-cells more efficiently than Trolox.

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Section: Introductionmentioning

confidence: 98%

Effect of a Bromo Substituent on the Glutathione Peroxidase Activity of a Pyridoxine-like Diselenide

et al. 2015

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“…Organotellurium compounds have been used as immunomodulatory, anti-inflammatory, and anti-apoptotic in Parkinson’s and diabetes models [28,29]. Previously, we synthesized organic compounds containing Se or Te which showed excellent antioxidative behavior [30,31,32,33,34]. These regenerable compounds greatly inhibited the rate of linoleic acid peroxidation in a two-phase peroxidation system, and showed GPx-like behavior in model systems.…”

Section: Introductionmentioning

confidence: 99%

Selenium- and Tellurium-Based Antioxidants for Modulating Inflammation and Effects on Osteoblastic Activity

Mestres

Singh

et al. 2017

Antioxidants

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Increased oxidative stress plays a significant role in the etiology of bone diseases. Heightened levels of H2O2 disrupt bone homeostasis, leading to greater bone resorption than bone formation. Organochalcogen compounds could act as free radical trapping agents or glutathione peroxidase mimetics, reducing oxidative stress in inflammatory diseases. In this report, we synthesized and screened a library of organoselenium and organotellurium compounds for hydrogen peroxide scavenging activity, using macrophagic cell lines RAW264.7 and THP-1, as well as human mono- and poly-nuclear cells. These cells were stimulated to release H2O2, using phorbol 12-myristate 13-acetate, with and without organochalogens. Released H2O2 was then measured using a chemiluminescent assay over a period of 2 h. The screening identified an organoselenium compound which scavenged H2O2 more effectively than the vitamin E analog, Trolox. We also found that this organoselenium compound protected MC3T3 cells against H2O2-induced toxicity, whereas Trolox did not. The organoselenium compound exhibited no cytotoxicity to the cells and had no deleterious effects on cell proliferation, viability, or alkaline phosphatase activity. The rapidity of H2O2 scavenging and protection suggests that the mechanism of protection is due to the direct scavenging of extracellular H2O2. This compound is a promising modulators of inflammation and could potentially treat diseases involving high levels of oxidative stress.

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“…In this context, the procedure reported by Thomson et al . has been widely used in various organochalcogen transformation reactions– as a source of Na 2 Se 2 . When freshly prepared 5‐alkyl‐2‐chloro‐1‐formyl‐3‐hydroxymethylenecyclohexenes {alkyl= H ( 22 ), Me ( 23 )}, were treated with in situ generated Na 2 Se 2 in presence of hexamethylphosphoramide (HMPA) in THF under reflux condition and the reaction time was extended from 7 h to 18 h, in addition to the expected 1,6‐dioxa‐6a‐selenapentalene, 11 and 1‐oxa‐6,6aλ 4 ‐diselenapentalene, 12 , a third product appeared as the prominent fraction (as monitored by thin layer chromatography).…”

Section: Resultsmentioning

confidence: 99%

Contrasting Reactivity of 2‐chloro‐1‐formyl‐3‐hydroxymethylenecyclohexene and its Schiff Bases towards Disodium Diselenide: Isolation of Selenospirocycles versus Azapentalenes

et al. 2018

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A convenient approach for the synthesis of alicyclic selenospirocycles, 24 and 25, stabilized by intramolecular chalcogen bonding (IChB) is reported by the reaction of 5alkyl-2-chloro-1-formyl-3-hydroxymethylenecyclohexene derivatives {alkyl = H (22), Me (23)} with in situ generated disodium diselenide (Na 2 Se 2 ). However, when 2-chloro-1formyl-3-hydroxymethylenecyclohexene, 22 is condensed with aniline or 4-methoxyaniline and the resulting Schiff bases 26 and 27 are subjected to identical reactions, the Schiff bases undergo cyclisation to afford brightly colored, fused 1,6-diaza-6a-selenapentalene derivatives 28-29, instead of the expected selenospirocycles. The aromatic nucleophilic substitution (S N Ar) reaction of N-(2-bromo-3-nitrobenzyl) naphthylamine, 33 with n BuSeLi affords N-[2-(butylselanyl)-3nitrobenzyl]naphthylamine, 34. The bromination of 34 results in the formation of cyclic isoselenazolines, 35. Selenospirocycles 24 and 25, 1,6-diaza-6a-selenapentalenes 28 and 29 and isoselenazoline 35 are authenticated by single-crystal Xray diffraction studies. Compounds 24, 25 and 35 are stabilized by intramolecular secondary interactions.[a] Dr. Se NMR resonance appears at 931 ppm which is in close agreement with the reported isoselenazoline derivatives. [5] UV-Visible StudiesThe UV-visible studies for ligand 26 and heterocycles 28, 30 were recorded at 15 × 10 À 6 M concentration in acetonitrile as solvent at the room temperature ( Figure 5). All the compounds Figure 4. Plausible mechanism for the formation of 30. Scheme 5. Synthesis of isoselenazoline 35.

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Pyridoxine‐Derived Organoselenium Compounds with Glutathione Peroxidase‐Like and Chain‐Breaking Antioxidant Activity

Cited by 54 publications

References 80 publications

Effect of a Bromo Substituent on the Glutathione Peroxidase Activity of a Pyridoxine-like Diselenide

Effect of a Bromo Substituent on the Glutathione Peroxidase Activity of a Pyridoxine-like Diselenide

Selenium- and Tellurium-Based Antioxidants for Modulating Inflammation and Effects on Osteoblastic Activity

Contrasting Reactivity of 2‐chloro‐1‐formyl‐3‐hydroxymethylenecyclohexene and its Schiff Bases towards Disodium Diselenide: Isolation of Selenospirocycles versus Azapentalenes

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