Abstract

In this work, we evaluated the conformational effect promoted by the isosteric exchange of sulfur by selenium in the heteroaromatic ring of new N-acylhydrazone (NAH) derivatives (3–8, 13, 14), analogues of the cardioactive compounds LASSBio-294 (1) and LASSBio-785 (2). NMR spectra analysis demonstrated a chemical shift variation of the iminic Csp2 of NAH S/Se-isosters, suggesting a stronger intramolecular chalcogen interaction for Se-derivatives. To investigate the pharmacological profile of these compounds at the adenosine A2A receptor (A2AR), we performed a previously validated functional binding assay. As expected for bioisosteres, the isosteric-S/Se replacement affected neither the affinity nor the intrinsic efficacy of our NAH derivatives (1–8). However, the N-methylated compounds (2, 6–8) presented a weak partial agonist profile at A2AR, contrary to the non-methylated counterparts (1, 3–5), which appeared as weak inverse agonists. Additionally, retroisosterism between aromatic rings of NAH on S/Se-isosters mimicked the effect of the N-methylation on intrinsic efficacy at A2AR, while meta-substitution in the phenyl ring of the acyl moiety did not. This study showed that the conformational effect of NAH-N-methylation and aromatic rings retroisosterism changed the intrinsic efficacy on A2AR, indicating the S/Se-chalcogen effect to drive the conformational behavior of this series of NAH.

Highlights

  • One of the main challenges in medicinal chemistry is the identification of the bioactive conformation of small molecules

  • Preliminary data obtained from CEREP (Study Number: 15180, 2008) on a panel of G-protein coupled receptor (GPCR) indicated that both LASSBio-294 (1) [13] and LASSBio-785 (2) had a moderate affinity for the adenosine A2A receptor (A2A R), a putative target for these drugs

  • We explored the isosteric relationship between sulfur and selenium and its implication on the intramolecular interaction between the iminic nitrogen and the antibonding orbital of the C–X bond on heterocyclic residues of N-acylhydrazone (NAH)

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Summary

Introduction

One of the main challenges in medicinal chemistry is the identification of the bioactive conformation of small molecules. During the development of bioactive N-acylhydrazones (NAH) derivatives [1,2], a significant difference between two homologues compounds, LASSBio-294 (1) and LASSBio-785 (2) [3,4,5,6] (Figure 1), was identified. Pharmacological studies showed that these similar compounds have distinct cardiovascular effects. LASSBio-294 (1) was more inotropic than vasodilatory, contrary to LASSBio-785 (2), a more potent vasodilator without a cardiac effect [7,8,9,10,11,12].

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