College of Life Sciences, Division of Biological Chemistry and Drug Discovery, University of Dundee, Dundee, DD1 5EH, UK.
Nat Prod Rep. 2011 May;28(5):970-1020. doi: 10.1039/c0np00064g. Epub 2011 Mar 30.
Glycosylphosphatidylinositols (GPIs) are a class of natural glycosylphospholipids that anchor proteins, glycoproteins and lipophosphoglycans to the membrane of eukaryotic cells. GPI anchors are widely present in parasitic protozoa, where GPI-anchored mucins and phosphoglycans are abundant and form a dense protective layer (glycocalyx) on the surface of the parasites. This type of anchor appears to be present in these organisms with a much higher frequency than in higher eukaryotes. Since the first full assignment of a GPI structure in 1988, more than 50 glycosylphosphatidylinositols have been structurally characterised. The functions of GPI anchors (in addition to the clear one of linking the above biopolymers to membranes) have been extensively discussed. The high lateral mobility of GPIs and GPI-anchored polymers seems to actively facilitate the selective release of molecules from the cell surface and the exchange of membrane proteins between cells. There is also evidence that GPIs and/or their metabolites can act as secondary messengers, modulating biological events including insulin production, insulin-mediated signal transduction, cellular proliferation and cell–cell recognition. Their discovered role as mediators of regulatory processes makes the chemical preparation of these compounds and their analogues of great interest. This comprehensive review highlights the progress in the chemical synthesis of GPI anchors and related glycoconjugate structures from protozoan parasites, yeast and mammals in the last two decades. The synthesis of a structurally related prokaryotic glycoconjugate of is also discussed.
糖基磷脂酰肌醇(GPI)是一类天然糖脂磷脂,可将蛋白质、糖蛋白和脂磷聚糖锚定到真核细胞的膜上。GPI 锚广泛存在于寄生原生动物中,其中 GPI 锚定的粘蛋白和磷酸糖脂丰富,并在寄生虫表面形成密集的保护层(糖萼)。这种类型的锚似乎在这些生物中比在高等真核生物中更为常见。自 1988 年首次完全分配 GPI 结构以来,已有超过 50 种糖基磷脂酰肌醇的结构得到了表征。GPI 锚的功能(除了将上述生物聚合物连接到膜上的明确功能外)已被广泛讨论。GPI 和 GPI 锚定聚合物的高侧向流动性似乎积极促进了分子从细胞表面的选择性释放以及膜蛋白在细胞之间的交换。还有证据表明,GPI 和/或其代谢物可以作为第二信使,调节包括胰岛素产生、胰岛素介导的信号转导、细胞增殖和细胞间识别在内的生物学事件。它们作为调节过程介质的发现作用使这些化合物及其类似物的化学制备具有很大的兴趣。这篇全面的综述强调了过去二十年中从原生动物寄生虫、酵母和哺乳动物中化学合成 GPI 锚和相关糖缀合物结构的进展。还讨论了结构上相关的原核糖缀合物的合成。