Grillaud Maxime, Bianco Alberto
CNRS, Institut de Biologie Moléculaire et, Cellulaire, Immunopathologie et Chimie Thérapeutique, Strasbourg, France.
J Pept Sci. 2015 May;21(5):330-45. doi: 10.1002/psc.2719. Epub 2014 Dec 2.
The remarkable structural and chemical properties of adamantane afford attractive opportunities to design various adamantane-based scaffolds for biomedical applications. A wide range of mono-functionalized adamantane compounds have already been investigated and reviewed, mostly as anti-viral agents. The four bridgehead positions of adamantane provide many possibilities to design poly-functional derivatives, and the recent conception of adamantane building blocks with multiple substituents has shown promising applications in several domains. In this review, we provide a detailed description of the different ways to synthesize multifunctional derivatives starting from adamantane molecule as the main core. We will then describe the interesting biological activity of the diverse multivalent scaffolds, focusing in particular on peptide-based systems. The results reported here will certainly encourage the development of novel adamantane-based structures for biological purposes.
金刚烷卓越的结构和化学性质为设计用于生物医学应用的各种基于金刚烷的支架提供了诱人的机会。已经对多种单官能化金刚烷化合物进行了研究和综述,它们大多用作抗病毒剂。金刚烷的四个桥头位置为设计多官能衍生物提供了多种可能性,最近关于具有多个取代基的金刚烷构建块的概念在几个领域已显示出有前景的应用。在本综述中,我们详细描述了以金刚烷分子为主要核心合成多功能衍生物的不同方法。然后,我们将描述各种多价支架有趣的生物活性,尤其关注基于肽的系统。此处报道的结果必将促进用于生物学目的的新型基于金刚烷的结构的开发。