We have discovered a novel compound, J-2156 [(1ЈS, 2S)-4-amino-N-(1Ј-carbamoyl-2Ј-phenylethyl)-2-(4Љ-methyl-1Љ-naphthalenesulfonylamino)butanamide], that belongs to a new class of somatostatin receptor ligands. J-2156 binds with nanomolar affinity to the human somatostatin receptor subtype 4 and is over 400-fold subtype-selective against the other somatostatin receptors. When evaluated in a [35 S]guanosine-5Ј-O-(3-thio) triphosphate binding assay, J-2156 elicited a response 2 to 3 times as large as that of somatostatin-28 and somatostatin-14. That somatostatin-14 is clearly not a maximally efficacious agonist could be verified by demonstrating that it displays the typical behavior of a partial agonist when tested against J-2156. Increasing concentrations of somatostatin-14 cause a concentration-dependent rightward shift of the dose-response curves for J-2156, without affecting its maximal response. This lack of reduction of the maximal response and the fact that the superior efficacy of J-2156 is detected in membranes argue against desensitization and internalization as possible explanations for the superior efficacy of J-2156. More likely is that somatostatin-14 and J-2156 stabilize distinct receptor conformations that differ in their ability to interact with G-proteins. In a cyclic AMP assay, J-2156, somatostatin-28, and somatostatin-14 all act as full agonists. However, this outcome is most likely due to the presence of a receptor reserve in the cyclic AMP assay since there is a large gain of apparent potency in the cyclic AMP assay and the gain is larger for J-2156 than for somatostatin. We conclude that the endogenous ligands somatostatin-14 and somatostatin-28 do not define maximal agonism on the human somatostatin receptor subtype 4 and that J-2156 represents a so-called superagonist.Somatostatin, also known as somatotropin release-inhibiting factor (SRIF), was first identified as a peptide that inhibits growth hormone release from the anterior pituitary (Krulich et al., 1968;Brazeau et al., 1973). Later, SRIF has been shown to also have other physiological functions, including the inhibition of both endocrine secretion, e.g., thyroid-stimulating hormone, prolactin, insulin, and glucagon, and exocrine secretion, e.g., gastric acid, intestinal fluid, and pancreatic enzymes (for review, see Patel, 1999). In addition, SRIF functions as a modulator of neuronal activity and may act as a neurotransmitter (Patel, 1999). The wide range of physiological actions of SRIF are mediated by a family of G-protein-coupled receptors (GPCRs), which comprises five distinct receptor subtypes (Reisine and Bell, 1995) termed sst 1 through sst 5 . In addition to the initially identified 14-amino acid peptide (SRIF-14), there is also a second form of somatostatin in humans, which consists of 28 amino acids (SRIF-28) (Pradayrol et al., 1980). Both endogenous SRIF forms bind to the five receptor subtypes with approximately equal affinity, even though SRIF-28 has been reported to show some preference for the sst 5 (Reisine a...
