CHAPTER 11. Vitamin E Inspired Synthetic Antioxidants

Vitamin E Pub Date : 2019-02-04 DOI:10.1039/9781788016216-00151

L. Valgimigli, Riccardo Amorati

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Abstract

The search for novel antioxidants inspired by the structure of vitamin E was made possible by rationalization of the physical–chemical properties at the basis of vitamin E bioactivity and has contributed significantly to such rationalization. Hundreds of novel compounds have been synthesized and tested, a representative selection of which (51 molecules) is illustrated and discussed in this chapter, highlighting the structure–activity relationships behind their antioxidant activity. Among them, BO-653, thiatocopherol and related compounds, selenotocopherol and related compounds, tellurophenols, N-tocopherol and related compounds, and Mito-Vitamin E are given special attention. The discussion focuses on the absolute rate constant for trapping peroxyl radicals in solution. When available, the performance in biomimetic models, like the protection of low density lipoproteins, along with the results of in vivo testing for pharmaceutical applications is also addressed. Some of the synthetic analogues largely outperformed the most active natural α-tocopherol, both in model systems and in vivo. However, none of these compounds has yet reached medical practice or is currently approved as a pharmaceutical, which calls for further research.

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第十一章。维生素E启发合成抗氧化剂

在维生素E生物活性的基础上，对其物理化学性质的合理化使得从维生素E结构中寻找新型抗氧化剂成为可能，并对这种合理化作出了重大贡献。数以百计的新化合物已经被合成和测试，其中51个分子的代表性选择在本章中被说明和讨论，突出其抗氧化活性背后的结构-活性关系。其中，BO-653、硫代生育酚及其相关化合物、硒代生育酚及其相关化合物、碲酚、n -生育酚及其相关化合物、mito -维生素E受到了特别关注。讨论了溶液中捕获过氧自由基的绝对速率常数。在可用的情况下，仿生模型的性能，如低密度脂蛋白的保护，以及药物应用的体内测试结果也将得到解决。一些合成类似物在模型系统和体内的表现都大大超过了最活跃的天然α-生育酚。然而，这些化合物还没有达到医疗实践或目前被批准为药物，这需要进一步的研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Vitamin E

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