Cyanine-5-labelled neuropeptide Y (NPY) was demonstrated to be an ideal universal fluorescent ligand for the combined investigation of NPY Y(1), Y(2) and Y(5) receptors. With respect to improved stability, detection of receptor subtypes in cells and tissues, and prevention of receptor internalization, small nonpeptidic fluorescent antagonists should be superior. Here we present a set of four fluorescent nonpeptide NPY Y(1) receptor (Y(1)R) antagonists. The highest affinity was obtained by labelling an N(G)-(6-aminohexanoyl)argininamide derived from the Y(1)R antagonist BIBP 3226, with Py-1, a small pyrylium dye. The fluorescent pyridinium-type Y(1)R antagonist, compound 4 had K(i) values of 29 nM and 2.7 nM, which were determined by radioligand binding and flow cytometry under equilibrium conditions, respectively; 4 had a K(b) value of 0.6 nM (Ca(2+) assay). The large Stoke's shift (541 vs. 615 nm) in buffer (PBS, pH 7.4) in the presence of 1% BSA and the red emission (quantum yield 56%) are advantageous with respect to the signal-to-noise ratio. The new probe was successfully used in fluorescence-based binding experiments evaluated by flow cytometry and confocal microscopy; this demonstrates the potential of pyrylium dyes for the preparation of fluorescent ligands that are applicable for the study of G protein-coupled receptors on living cells.
Strongly basic groups such as guanidine moieties are crucial structural elements, but they compromise the drug-likeness of numerous biologically active compounds, including ligands of G-protein-coupled receptors (GPCRs). As part of a project focused on the search for guanidine bioisosteres, argininamide-type neuropeptide Y (NPY) Y₂ receptor (Y₂R) antagonists related to BIIE0246 were synthesized. Starting from ornithine derivatives, N(G) -acylated argininamides were obtained by guanidinylation with tailor-made mono-Boc-protected N-acyl-S-methylisothioureas. The compounds were investigated for Y₂R antagonism (calcium assays), Y₂R affinity, and NPY receptor subtype selectivity (flow cytometric binding assays). Most of the N(G) -substituted (S)-argininamides showed Y₂R antagonistic activities and binding affinities similar to those of the parent compound, whereas N(G)-acylated or -carbamoylated analogues with a terminal amine were superior (Y₂R: K(i) and K(B) values in the low nanomolar range). This demonstrates that the basicity of the compounds, although 4-5 orders of magnitude lower than that of guanidines, is sufficient to form key interactions with acidic amino acids of the Y₂R. The acylguanidines bind with high affinity and selectivity to Y₂R over the Y₁, Y₄, and Y₅ receptors. As derivatization of the amino group is tolerated, these compounds can be considered building blocks for the preparation of versatile fluorescent and radiolabeled pharmacological tools for in vitro studies of the Y₂R. The results support the concept of bioisosteric guanidine-acylguanidine exchange as a broadly applicable approach to retain pharmacological activity despite decreased basicity.
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