重组杆状病毒G蛋白偶联受体药物的发现。

Robert Ames, James Fornwald, Parvathi Nuthulaganti, John Trill, James Foley, Peter Buckley, Thomas Kost, Zining Wu, Michael Romanos
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引用次数: 57

摘要

随着人类和小鼠基因组测序的完成,已经确定了近400个非嗅觉G蛋白偶联受体(gpcr)的初级序列。制药行业正在努力发现和开发通过gpcr作用的新治疗剂。此外,通过鉴定其余150多个孤儿gpcr的配体,人们正在共同努力从它们中鉴定潜在的新药靶点。获得功能性表达的重组受体是这两个关键药物发现活动的基础。通常,GPCR药物发现筛选活动是使用稳定表达感兴趣目标的哺乳动物细胞系进行的。来自基因组测序工作的新受体序列的涌入导致了瞬态而非稳定表达系统的更广泛应用的转变,特别是在支持孤儿受体配体筛选的检测方面。用哺乳动物启动子取代多面蛋白启动子的重组杆状病毒被称为BacMam病毒,最初被设计为潜在的新型基因治疗递送载体。这种技术作为一种瞬时表达系统在检测膜表达药物靶标(包括gpcr)方面具有许多优点。数据显示,BacMam可以快速生成多种格式的稳健且药理学上可靠的GPCR分析,具有改变该基因家族药物发现筛选过程的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
BacMam recombinant baculoviruses in G protein-coupled receptor drug discovery.

With completion of the sequencing of the human and mouse genomes, the primary sequences of close to 400 non-olfactory G protein-coupled receptors (GPCRs) have been determined. There are intensive efforts within the pharmaceutical industry to discover and develop new therapeutic agents acting via GPCRs. In addition, there is a concerted effort to identify potential new drug targets from the remaining 150+orphan GPCRs through the identification of their ligands. Access to functionally expressed recombinant receptors underpins both of these key drug discovery activities. Typically, GPCR drug discovery screening activities are carried out using mammalian cell lines stably expressing the target of interest. The influx of new receptor sequences originating from genomic sequencing efforts has caused a shift toward wider applications of transient rather than stable expression systems, especially in support of assays for orphan receptor ligand screening. Recombinant baculoviruses in which the polyhedrin promoter has been replaced with a mammalian promoter, termed BacMam viruses, were originally designed as potential new gene therapy delivery vehicles. This same technology offers numerous advantages as a transient expression system in the assay of membrane-expressed drug targets, including GPCRs. Data presented show that BacMam can be used rapidly to generate robust and pharmacologically authentic GPCR assays in several formats, with the potential to transform drug discovery screening processes for this gene family.

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