Vernall Andrea J, Hill Stephen J, Kellam Barrie
School of Pharmacy, Centre for Biomolecular Sciences, University of Nottingham, Nottingham, UK.
Br J Pharmacol. 2014 Mar;171(5):1073-84. doi: 10.1111/bph.12265.
The past decade has witnessed fluorescently tagged drug molecules gaining significant attraction in their use as pharmacological tools with which to visualize and interrogate receptor targets at the single-cell level. Additionally, one can generate detailed pharmacological information, such as affinity measurements, down to almost single-molecule detection limits. The now accepted utilization of fluorescence-based readouts in high-throughput/high-content screening provides further evidence that fluorescent molecules offer a safer and more adaptable substitute to radioligands in molecular pharmacology and drug discovery. One such drug-target family that has received considerable attention are the GPCRs; this review therefore summarizes the most recent developments in the area of fluorescent ligand design for this important drug target. We assess recently reported fluorescent conjugates by adopting a receptor-family-based approach, highlighting some of the strengths and weaknesses of the individual molecules and their subsequent use. This review adds further strength to the arguments that fluorescent ligand design and synthesis requires careful planning and execution; providing examples illustrating that selection of the correct fluorescent dye, linker length/composition and geographic attachment point to the drug scaffold can all influence the ultimate selectivity and potency of the final conjugate when compared with its unlabelled precursor. When optimized appropriately, the resultant fluorescent conjugates have been successfully employed in an array of assay formats, including flow cytometry, fluorescence microscopy, FRET and scanning confocal microscopy. It is clear that fluorescently labelled GPCR ligands remain a developing and dynamic research arena.
在过去十年中,荧光标记的药物分子作为一种药理学工具,在单细胞水平上可视化和研究受体靶点方面获得了极大的关注。此外,人们可以生成详细的药理学信息,例如亲和力测量,甚至达到几乎单分子检测限。目前在高通量/高内涵筛选中基于荧光的读数的应用得到了进一步的证据,表明荧光分子在分子药理学和药物发现中为放射性配体提供了一种更安全、更具适应性的替代品。一个受到相当多关注的药物靶点家族是G蛋白偶联受体(GPCRs);因此,本综述总结了针对这一重要药物靶点的荧光配体设计领域的最新进展。我们采用基于受体家族的方法评估最近报道的荧光缀合物,突出个别分子的一些优点和缺点及其后续应用。本综述进一步强调了荧光配体设计和合成需要精心规划和执行的观点;提供的例子表明,与未标记的前体相比,正确选择荧光染料、连接子长度/组成以及与药物支架的连接位置都会影响最终缀合物的最终选择性和效力。当进行适当优化时,所得的荧光缀合物已成功应用于一系列检测形式,包括流式细胞术、荧光显微镜、荧光共振能量转移(FRET)和扫描共聚焦显微镜。显然,荧光标记的GPCR配体仍然是一个不断发展和动态的研究领域。