We have tried to evaluate the significance of the tryptophan side chain residue and of the surrounding peptide bonds in the antagonist activity of cholecystokinin analogues lacking the C-terminal amide function and having a D-tryptophan. In order to perform this study, analogues of the C-terminal heptapeptide of cholecystokinin were synthesized by replacing the C-terminal phenylalanine residue with 2-phenylethyl alcohol and by either replacing the tryptophan residue with an alanine, a norleucine and a phenylalanine residue, or introducing a "reduced peptide bond" in the tryptophan 30 region. Most of these compounds were able to reproduce only part of the response of cholecystokinin in stimulating amylase release from rat pancreatic acini, as was already observed for 2-phenylethyl ester analogues of CCK. These results point out the key role of tryptophan 30 in the biological response of cholecystokinin.