Highly Potent Cyclic Disulfide Antagonists of Somatostatin

Abstract

The search for synthetic analogues of somatostatin (SRIF) which exhibit selective affinities for the five known receptor subtypes (sst_1-5) has generated a large number of potent agonist analogues. Many of these agonists display good subtype selectivities and affinities for the subtypes 2, 3, and 5, with very few selective for sst₁ or sst₄. Until the recent report by Bass and co-workers (Mol. Pharmacol.1996, 50, 709−715; erratum Mol. Pharmacol.1997, 51, 170), no true antagonists of somatostatin had been discovered, let alone any displaying differential receptor subtype selectivity. In this present study, we further explore the effect of this putative l,⁵d⁶ antagonist motif on somatostatin octapeptide analogues with a cyclic hexapeptide core. The most potent antagonist found to date is H-Cpa-cyclo[dCys-Tyr-dTrp-Lys-Thr-Cys]-Nal-NH₂, PRL-2970 (21), which has an IC₅₀ of 1.1 nM in a rat pituitary growth hormone in vitro antagonist assay versus SRIF (1 nM). This analogue bound to cloned human somatostatin subtype 2 receptors with a K_i of 26 nM. The highest hsst₂ affinity analogue was H-Cpa-cyclo[dCys-Pal-dTrp-Lys-Tle-Cys]-Nal-NH₂, PRL-2915 (15), with a K_i of 12 nM (IC₅₀ = 1.8 nM). This analogue was also selective for hsst₂ over hsst₃ and hsst₅ by factors of 8 and 40, respectively, and had no agonist activity when tested alone at concentrations up to 10 μM. Regression analysis of the binding affinities versus the observed antagonist potencies revealed high correlations for hsst₂ (r = 0.65) and hsst₃ (r = 0.52) with a less significant correlation to hsst₅ (r = 0.40). This is quite different from the somatostatin agonist analogues which show a highly significant correlation to hsst₂ (r > 0.9). Receptor-selective somatostatin antagonists should provide valuable tools for characterizing the many important physiological functions of this neuropeptide.