Dynorphin-(1-13) (Dyn-(1-13)) and various analogs substituted in positions 8 and 10 were synthesized by the solid-phase technique and analyzed for their ability to inhibit the electrically evoked contraction of the guinea pig ileum (GPI) and to compete with the binding of [3H]-ethylketocyclazocine (EKC, kappa ligand), [3H]-[D-Ala2, MePhe4-Gly-ol5]-enkephalin (DAGO, mu ligand) and [3H]-[D-Ser2, Thr6]-Leu-enkephalin (DSLET, delta ligand) to membrane preparations of the guinea pig cerebellum or rat brain. Introduction of Ala in position 8 decreased the activity of the peptide on the GPI by 50% but induced a 2.22-fold increase in its affinity for the kappa receptor ([3H]-EKC binding displacement from guinea pig cerebellum; Ki of 0.05 nM as compared with 0.11 nM for Dyn-(1-13)). On the other hand, the ability of [Ala8] Dyn-(1-13) to displace the binding of [3H]-DSLET from rat brain membranes was decreased by a factor of 1.7 while its affinity for the mu receptor was not greatly affected ([3H]-DAGO displacement; Ki of 0.44 nM as compared with 0.50 nM for Dyn-(1-13)). Replacement of position 8 by D-Ala caused similar changes in the activity of the peptide but the increase in its affinity for the kappa site was somewhat smaller (Ki of 0.08 nM as compared with 0.11 nM). [D-Pro10]-Dyn-(1-13) was equipotent to [Ala8]-Dyn-(1-13) in the GPI but its affinity for the mu binding site was decreased by a factor of 2.7 as compared with Dyn-(1-13).(ABSTRACT TRUNCATED AT 250 WORDS)