In vivo activities of peptide and pseudo-peptide analogs of the C-terminal octapeptide of cholecystokinin on pancreatic secretion in the rat

Most studies measuring the agonist and antagonist activities of CCK analogs and derivatives on the exocrine pancreas have been done with in vitro models. However, extrapolation to the in vivo situation may be sometimes hazardous, due to the catabolism of the peptides by circulating and tissue peptidases, and to their eventual interaction with various endogenous factors. The present experiments were organized to measure the efficacy and potency on pancreatic secretion of the rat in vivo of a series of CCK 8 analogs whose binding and activity had been previously measured on guinea-pig and rat isolated acini. The molecules tested were derivatives of Boc-(Nle 28-Nle 31)-CCK 26–33 (1), and comprised 2-phenylethylester derivatives, des-Phe derivatives, and a series of pseudo-peptides with a “reduced” bond CH2-NH replacing the peptide bond in position 28–29 to 32–33. They were perfused in anaesthetized rats, and the outputs of sodium, bicarbonate and total protein were measured. All of the derivatives studied had in vivo the same efficacy as (1) on the output of protein, and were 10 to 500 times less potent. For most compounds, the relative order of potencies measured in vivo was similar to that measured in vitro on amylase secretion by rat acini. However, the derivatives with reduced bonds in positions 28–29 and 29–30 were respectively 3 and 2 times less potent in vivo, relative to (1), while derivatives with reduced bonds in positions 30–31, 31–32 and 32–33 were 1.5 to 2.5 times more potent in vivo. The 2-phenylethylester derivatives were 7 and 9 times as potent in vitro as in vivo. The des-Phe derivative, which had in vitro antagonist properties on guinea-pig acini, and acted like a partial agonist on rat acini, was in vivo a complete agonist and was relatively 300 times as potent in vivo as in vitro. These results indicate that the metabolism of the peptides and/or their interaction with endogenous factors may change appreciably the effect of CCK derivatives on pancreatic secretion of the rat in vivo.