Engen Karin, Rosenström Ulrika, Axelsson Hanna, Konda Vivek, Dahllund Leif, Otrocka Magdalena, Sigmundsson Kristmundur, Nikolaou Alexandros, Vauquelin Georges, Hallberg Mathias, Jenmalm Jensen Annika, Lundbäck Thomas, Larhed Mats
1 Division of Organic Pharmaceutical Chemistry, Department of Medicinal Chemistry, Uppsala University , Uppsala, Sweden .
2 Chemical Biology Consortium Sweden, Science for Life Laboratory Stockholm, Division of Translational Medicine and Chemical Biology, Department of Medical Biochemistry and Biophysics, Karolinska Institutet , Solna, Sweden .
Assay Drug Dev Technol. 2016 Apr;14(3):180-93. doi: 10.1089/adt.2016.708.
Intracerebroventricular injection of angiotensin IV, a ligand of insulin-regulated aminopeptidase (IRAP), has been shown to improve cognitive functions in several animal models. Consequently, IRAP is considered a potential target for treatment of cognitive disorders. To identify nonpeptidic IRAP inhibitors, we adapted an established enzymatic assay based on membrane preparations from Chinese hamster ovary cells and a synthetic peptide-like substrate for high-throughput screening purposes. The 384-well microplate-based absorbance assay was used to screen a diverse set of 10,500 compounds for their inhibitory capacity of IRAP. The assay performance was robust with Z'-values ranging from 0.81 to 0.91, and the screen resulted in 23 compounds that displayed greater than 60% inhibition at a compound concentration of 10 μM. After hit confirmation experiments, purity analysis, and promiscuity investigations, three structurally different compounds were considered particularly interesting as starting points for the development of small-molecule-based IRAP inhibitors. After resynthesis, all three compounds confirmed low μM activity and were shown to be rapidly reversible. Additional characterization included activity in a fluorescence-based orthogonal assay and in the presence of a nonionic detergent and a reducing agent, respectively. Importantly, the characterized compounds also showed inhibition of the human ortholog, prompting our further interest in these novel IRAP inhibitors.
脑室内注射血管紧张素IV(胰岛素调节氨肽酶(IRAP)的一种配体)已被证明可改善多种动物模型的认知功能。因此,IRAP被认为是治疗认知障碍的一个潜在靶点。为了鉴定非肽类IRAP抑制剂,我们采用了一种基于中国仓鼠卵巢细胞膜制剂和一种合成肽样底物的既定酶促测定法,用于高通量筛选。基于384孔微孔板的吸光度测定法用于筛选10500种不同化合物对IRAP的抑制能力。该测定性能稳健,Z'值范围为0.81至0.91,筛选结果得到23种化合物,在化合物浓度为10μM时表现出大于60%的抑制率。经过命中确认实验、纯度分析和混杂性研究后,三种结构不同的化合物被认为作为基于小分子的IRAP抑制剂开发的起始点特别有趣。重新合成后,所有三种化合物均证实具有低 microM活性,并显示出快速可逆性。进一步的表征分别包括在基于荧光的正交测定法以及在非离子去污剂和还原剂存在下的活性。重要的是,所表征的化合物也显示出对人同源物的抑制作用,这促使我们对这些新型IRAP抑制剂产生了进一步的兴趣。
