Structure-Activity Relationships of Somatostatin Analogs in the Rabbit Ileum and the Rat Colon

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Abstract

Somatostatin increases absorption of electrolytes and inhibits diarrhea in patients with endocrine tumors and short bowel syndrome. In an attempt to develop a gut-specific somatostatin analog, each amino acid in the somatostatin molecule was replaced with L-alanine, deleted, or substituted with its D-isomer. The potency of each analog to stimulate ion transport in the rabbit ileum was then determined using the modified Ussing chamber technique. The results were compared to the ability of each analog to inhibit the stimulated release of growth hormone from cultured rat anterior pituitary cells and to inhibit the arginine-stimulated release of insulin and glucagon in the rat in vivo. Analogs that showed gut selectivity were then tested for their ion transport properties in the rat colon. Results: (a) Substitution with L-alanine or deletion of the amino acid at position 6, 7, 8, or 9 and deletion of Threonine10-produced analogs with significantly reduced ion transport properties to <4% of somatostatin's action. The substitution also markedly reduced the ability of the compounds to inhibit the release of growth hormone, insulin, and glucagon. (b) Selectivity of intestinal ion transport was achieved by any one of the following alterations: L-alanine substitution at Phenylalanine11, deletion of Phenylalanine11, substitution with D-lysine at Lysine4, or substitution with L-alanine at Lysine4. These compounds had intestinal ion transport properties of 52, 34, 139, and 94%, respectively, while demonstrating little or no inhibition of growth hormone, insulin or glucagon release. Conclusions: (a) Phenylalanine6, Phenylalanine7, Tryptophan8, and Lysine9 are required for the ion transport and other biologic actions of somatostatin, whereas Threonine10 serves as an essential spacer. (b) Alteration at Phenylalanine11 or Lysine4 yields analogs that are selective for ion transport in the rabbit ileum and rat colon. These findings should be taken into consideration when developing a gut-specific somatostatin analog that can be useful in the treatment of diarrhea.

Authors

Linda E. Rosenthal, Darrell J. Yamashiro, Jean Rivier, Wylie Vale, Marvin Brown, Kiertisin Dharmsathaphorn