Identification and Characterization of Dual‐Acting Small Molecule Modulators targeting Secretin Receptors

Abstract

The Secretin receptor (SCTR) has been cloned as the first member of class B G protein‐coupled receptors (GPCRs) [1], giving rise to this highly important group of therapeutic targets, which are crucial for hormonal homeostasis [2]. Despite the wide recognition of their functional importance, the development of potent small molecule ligands for Class B GPCRs remained challenging [2]. To date, no ligands other than secretin peptide and its close analogs are known to interact with SCTRs, despite its therapeutic relevance in multiple diseases, such as heart failure, obesity, diabetes and cancer [3]. In order to enhance our chances for discovering orally bioavailable drug candidates targeting an ‚undruggable’ class B GPCR, we focused our efforts on the identification of positive allosteric modulators (PAMs), which are likely to interact via structurally distinct binding sites and potentiate effects of native hormones and neurotransmitters [4].We developed a comprehensive tool box with robust high‐throughput screening and lead characterization/optimization assays capable of identifying and characterizing biologically relevant SCTR small molecule modulators. The dominant physiological coupling of SCTRs occurs via Gs proteins. Hence, we utilized this signaling mechanism to establish diverse cAMP accumulation assays suitable for simultaneous detection of PAMs modulating secretin and its potential metabolites. We also established a TR‐FRET based binding assay to further characterize potential PAMs with respect to their kinetic properties. Since functional selectivity has been proven to be therapeutically relevant for this family of membrane proteins, we additionally designed assays to investigate signaling mechanisms beyond Gs protein coupling, such as β‐arrestin recruitment, receptor internalization and calcium flux.High‐throughput screening (HTS) of a 360,000 compound library provided promising sets of hits, which have been further investigated regarding their allosteric activity and mechanism of action. We identified three related scaffolds with significant PAM activity at SCTRs. Selectivity studies revealed that this specific set of compounds demonstrated positive modulation not only on SCTRs but also on GLP‐1Rs (glucagon‐like peptide 1 receptors). Interestingly, dual activation of SCTRs and GLP‐1Rs has been shown to be beneficial for appetite regulation and glucose homeostasis without having proliferative effects on exocrine or total pancreas mass [5].To conclude, HTS and the development of a diverse panel of binding and functional assays has led to the discovery of small molecules with a unique dual‐acting pharmacological profile and potential to serve as starting points for developing first‐in‐class drug candidates for the treatment of comorbid conditions obesity and diabetes.Support or Funding Information Funding: NHLBI award 5R01HL133501