Abstract

The angiotensin AT2-receptor (AT2R) is a key component within the protective arm of the renin-angiotensin system (RAS), being involved in nitric oxide (NO) production and vasodilation. To this date, no quantitative high-throughput assay is available to identify AT2R agonists in vitro , which may be a reason for the low number of AT2R selective ligands in drug development programs. Objective: To design and validate a high-throughput method for detection of AT2R activation in vitro . Methods and Results: NO release was selected as readout for AT2R activation in AT2R transfected (CHO-AT2) and non-transfected (CHO-NT) CHO cells using DAF-FM (5x10-6 mol/L) as NO probe. Cells were seeded on 96-well plates and stimulated for 15 minutes with C21 or Ang II (established AT2R agonists, 10-6mol/L), Ang-(1-5) (molecule with unknown biological status, 10-6 mol/L) or Ang-(1-7) (Mas-receptor agonist, 10-7 mol/L). After fixation of cells, fluorescence signals were captured by fluorescence microscopy using an automated imaging system (ImageXpress Pico, Molecular Devices, San Jose, USA) and image analysis by ImageJ. In CHO-AT2, C21 (+34.78 ± 12.09%), Ang II (+28.76 ± 17.65%) and Ang-(1-5) (+78.00 ± 23.82%) increased NO release (one-way ANOVA, p < 0.05 vs control, at least 3 independent experiments), while Ang-(1-7) had no effect (+ 0.13 ± 4.74%). In CHO-NT, none of the compounds stimulated release of NO (C21 -4.91 ±10.24%; Ang II -4.79 ± 12.44%; Ang (1-5) -8.88 ± 18.16%; Ang-(1-7) -11.57 ± 19.95%) indicating that the responses in CHO-AT2 were AT2R specific. Conclusion: Measurement of NO release from AT2R transfected CHO cells by DAF-FM fluorescence in an automated way is suitable as high-throughput assay for the identification of AT2R-agonistic compounds in vitro , Application of the assay revealed that Ang-(1-5), which is commonly regarded as an inactive metabolite of Ang II, has AT2R agonistic properties.

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