Angiotensin AT-receptor (ATR) agonists have shown a wide range of protective effects in many preclinical disease models. However, the availability of ATR-agonists is very limited due to the lack of high-throughput assays for ATR-agonist identification. Therefore, we aimed to design and validate an assay for high-throughput screening of ATR-agonist candidates. The assay is based on nitric oxide (NO) release measurements in primary human aortic endothelial cells (HAEC), in ATR-transfected CHO cells (ATR-CHO) or in non-transfected CHO cells (Flp-CHO) using the fluorescent probe DAF-FM diacetate. It is run in 96-well plates and fluorescence signals are semi-automatically quantified. The assay was tested for sensitivity (recognition of true positive results), selectivity (recognition of true negative results), and reliability (by calculating the repeatability coefficient (RC)). The high-throughput, semi-automated method was proven suitable, as the NO-releasing agents C21, CGP42112A, angiotensin-(1-7) and acetylcholine significantly increased NO release from HAEC. The assay is sensitive and selective, since the established ATR-agonists C21, CGP42112A and angiotensin II significantly increased NO release from ATR-CHO cells, while the non-ATR-agonists angiotensin-(1-7) and acetylcholine had no effect. Assay reliability was shown by high-throughput screening of a library comprised of 40 potential ATR-agonists, of which 39 met our requirements for reliability (RC ≤ 20% different from RC for C21). Our newly developed high-throughput method for detection of ATR-agonistic activity was proven to be sensitive, selective, and reliable. This method is suitable for the screening of potential ATR-agonists in future drug development programs.
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