Novel enhancers of guanylyl cyclase‐A activity acting via allosteric modulation

Abstract

AbstractBackground and PurposeGuanylyl cyclase‐A (GC‐A), activated by endogenous atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP), plays an important role in the regulation of cardiovascular and renal homeostasis and is an attractive drug target. Even though small molecule modulators allow oral administration and longer half‐life, drug targeting of GC‐A has so far been limited to peptides. Thus, in this study we aimed to develop small molecular activators of GC‐A.Experimental ApproachHits were identified through high‐throughput screening and optimized by in silico design. Cyclic GMP was measured in QBIHEK293A cells expressing GC‐A, GC‐B or chimerae of the two receptors using AlphaScreen technology. Binding assays were performed in membrane preparations or whole cells using 125I‐ANP. Vasorelaxation was measured in aortic rings isolated from Wistar rats.Key ResultsWe have identified small molecular allosteric enhancers of GC‐A, which enhanced ANP or BNP effects in cellular systems and ANP‐induced vasorelaxation in rat aortic rings. The mechanism of action appears novel and not mediated through previously described allosteric binding sites. In addition, the selectivity and activity depend on a single amino acid residue that differs between the two similar receptors GC‐A and GC‐B.Conclusion and ImplicationsWe describe a novel allosteric binding site on GC‐A, which can be targeted by small molecules to enhance ANP and BNP effects. These compounds will be valuable tools in further development and proof‐of‐concept of GC‐A enhancement for the potential use in cardiovascular therapy.