Ray Caroline, Soderblom Erik J, Bai Yushi, Carroll F Ivy, Caron Marc G, Barak Larry S
Departments of Pharmacology and Toxicology, RTI International , 3040 E. Cornwallis Road, Durham, North Carolina 27709, United States.
ACS Chem Biol. 2017 Mar 17;12(3):702-714. doi: 10.1021/acschembio.6b01117. Epub 2017 Jan 24.
Nicotinic acetylcholine receptors regulate the nicotine dependence encountered with cigarette smoking, and this has stimulated a search for drugs binding the responsible receptor subtypes. Studies link a gene cluster encoding for α3β4α5-D398N nicotinic acetylcholine receptors to lung cancer risk as well as link a second mutation in this cluster to an increased risk for nicotine dependence. However, there are currently no recognized drugs for discriminating α3β4α5 signaling. In this study, we describe the development of homogeneous HEK-293 cell clones of α3β4 and α3β4α5 receptors appropriate for drug screening and characterizing biochemical and pharmacological properties of incorporated α5 subunits. Clones were assessed for plasma membrane expression of the individual receptor subunits by mass spectrometry and immunochemistry, and their calcium flux was measured in the presence of a library of kinase inhibitors and a focused library of acetylcholine receptor ligands. We demonstrated an incorporation of two α3 subunits in approximately 98% of plasma membrane receptor pentamers, indicating a 2/3 subunit expression ratio of α3 to β4 alone or to coexpressed β4 and α5. With prolonged nicotine exposure, the plasma membrane expression of receptors with and without incorporated α5 increased. Whereas α5 subunit expression decreased the cell calcium response to nicotine and reduced plasma membrane receptor number, it partially protected receptors from nicotine mediated desensitization. Hit compounds from both libraries suggest the α5 and α5-D398N subunits allosterically modify the behavior of nicotine at the parent α3β4 nicotinic acetylcholine receptor. These studies identify pharmacological tools from two distinct classes of drugs, antagonists and modifiers that are α5 and α5-D398N subtype selective that provide a means to characterize the role of the CHRNA5/A3/B4 gene cluster in smoking and cancer.
烟碱型乙酰胆碱受体调节吸烟过程中出现的尼古丁依赖,这激发了人们寻找与相关受体亚型结合的药物的研究。研究将编码α3β4α5-D398N烟碱型乙酰胆碱受体的基因簇与肺癌风险联系起来,同时也将该基因簇中的另一种突变与尼古丁依赖风险增加联系起来。然而,目前尚无用于区分α3β4α5信号传导的公认药物。在本研究中,我们描述了适用于药物筛选的α3β4和α3β4α5受体的均一化HEK-293细胞克隆的开发,并对掺入的α5亚基的生化和药理学特性进行了表征。通过质谱和免疫化学评估克隆中各个受体亚基的质膜表达,并在激酶抑制剂文库和乙酰胆碱受体配体聚焦文库存在的情况下测量它们的钙通量。我们证明,在大约98%的质膜受体五聚体中掺入了两个α3亚基,这表明单独的α3与β4或共表达的β4和α5的亚基表达比例为2/3。随着尼古丁暴露时间的延长,含有和不含有掺入α5的受体的质膜表达均增加。虽然α5亚基的表达降低了细胞对尼古丁的钙反应并减少了质膜受体数量,但它部分保护受体免受尼古丁介导的脱敏作用。来自两个文库的活性化合物表明,α5和α5-D398N亚基变构修饰了尼古丁在亲本α3β4烟碱型乙酰胆碱受体上的行为。这些研究从两类不同的药物(拮抗剂和调节剂)中鉴定出了药理学工具,它们具有α5和α5-D398N亚型选择性,为表征CHRNA5/A3/B4基因簇在吸烟和癌症中的作用提供了一种手段。