The sulfate ester of CCK26-33 or CCK8 (Asp-Tyr(SO3H)-Met-Gly-Trp-Met-Asp-Phe-NH2) borne by the tyrosine residue is a critical determinant of the biological activity of this peptide. In order to increase the stability of this molecule, the sulfated tyrosine has been replaced by a synthetic amino acid (L,D)Phe(p-CH2SO3Na) in which the OSO3H group was replaced by the nonhydrolyzable CH2SO3H group. Both isomers were separated by chromatography and the stereochemistry of the Phe(p-CH2SO3Na) residue in each peptide was established by NMR spectroscopy. The biological activities of the new derivatives Ac[X27, Nle28,Nle31]CCK27-33 were compared with those of Boc[Nle28,Nle31]CCK27-33, an equiactive analogue of CCK8 and Boc[D-Tyr(SO3Na)27,Nle28,Nle31]CCK27-33. Besides their highly enhanced chemical stability, Ac[L-Phe(p-CH2SO3Na)27,Nle28,Nle31]CCK27-33 and Ac[D-Phe(p-CH2SO3Na)27,Nle28,Nle31]CCK27-33 display high affinity for peripheral and central CCK receptors (KI congruent to 10(-9) M) and proved to be full agonists in the stimulation of pancreatic secretion as well as in the in vitro CCK8-induced contractions of the guinea pig ileum.