Pseudopeptide analogues of the C-terminal hexapeptide of neurotensin (H-Arg-Arg-Pro-Tyr-Ile-Leu-OH) were obtained by replacing each peptide bond by the reduced peptide bond CH2NH. The resulting analogues were then examined for their ability to inhibit binding of labeled neurotensin to new-born mouse brain membranes and for stimulation of guinea pig ileum contraction. Replacement of the Ile12-Leu13, Tyr11-Ile12, Pro10-Tyr11 and Lys9-Pro10 peptide bonds resulted in about 2000-, 3400-, 200- and 3400-fold losses, respectively, in binding affinity and 400-, 750-, 250- and 300-fold losses, respectively, in biological activity. Replacement of both Arg8 and Arg9 by lysine led to an analogue exhibiting the same pharmacological profile as the C-terminal hexapeptide of neurotensin. Interestingly, replacement of the Lys8-Lys9 peptide bond by the CH2NH bond produced an analogue exhibiting the same affinity for neurotensin receptors, but 10 times more potent in stimulating guinea pig ileum contraction. N-terminal protected analogues (by the Boc group) showed decreased potency as compared with their amino-free corresponding compounds.