Biasutto Lucia, Mattarei Andrea, Azzolini Michele, La Spina Martina, Sassi Nicola, Romio Matteo, Paradisi Cristina, Zoratti Mario
CNR Neuroscience Institute, Padova, Italy.
Department of Biomedical Sciences, University of Padova, Padova, Italy.
Ann N Y Acad Sci. 2017 Sep;1403(1):27-37. doi: 10.1111/nyas.13401. Epub 2017 Jul 4.
Prodrugs of resveratrol are under development. Among the long-term goals, still largely elusive, are (1) modulating physical properties (e.g., water-soluble derivatives bearing polyethylene glycol chains), (2) changing distribution in the body (e.g., galactosyl derivatives restricted to the intestinal lumen), (3) increasing absorption from the gastrointestinal tract (e.g., derivatives imitating the natural substrates of endogenous transporters), and (4) hindering phase II metabolism (e.g., temporarily blocking the hydroxyls), all contributing to (5) increasing bioavailability. The chemical bonds that have been tested for functionalization include carboxyester, acetal, and carbamate groups. A second approach, which can be combined with the first, seeks to reinforce or modify the biochemical activities of resveratrol by concentrating the compound at specific subcellular sites. An example is provided by mitochondria-targeted derivatives. These proved to be pro-oxidant and cytotoxic in vitro, selectively killing fast-growing and tumor cells when supplied in the low micromolar range. This suggests the possibility of anticancer applications.
白藜芦醇的前体药物正在研发中。在那些长期目标中,仍有很大一部分难以实现,这些目标包括:(1)调节物理性质(例如,带有聚乙二醇链的水溶性衍生物);(2)改变在体内的分布(例如,局限于肠腔的半乳糖基衍生物);(3)提高胃肠道的吸收(例如,模仿内源性转运体天然底物的衍生物);以及(4)阻碍II相代谢(例如,暂时封闭羟基),所有这些都有助于(5)提高生物利用度。已测试用于功能化的化学键包括羧酸酯、缩醛和氨基甲酸酯基团。第二种方法可以与第一种方法结合使用,旨在通过将化合物集中在特定亚细胞位点来增强或改变白藜芦醇的生化活性。线粒体靶向衍生物就是一个例子。这些衍生物在体外被证明具有促氧化和细胞毒性,当以低微摩尔浓度提供时,能选择性地杀死快速生长的肿瘤细胞。这表明了其在抗癌应用方面的可能性。
