Mono- and di-substituted analogs of dynorphin-A(1-13) (Dyn-A(1-13)) were synthesized by the solid-phase procedure. The products were purified and analyzed for their ability to inhibit the ...electrically evoked contractions of the guinea pig ileum (GPI) and mouse vas deferens (MVD) and to compete with the binding of 3Hetorphine (3HET) and 3Hethylketocyclazocine (3HEKC) to homogenates of rat brain (mu-, delta-, kappa 2-receptors) and guinea pig cerebellum (kappa-receptor), respectively. Introduction of Ala in position 2 caused a drastic decrease in the activity of the peptide on the smooth muscle preparations (IC50 of 104 and 2.250 nM in the GPI and the MVD as compared with 0.7 and 21 nM for the parent peptide, respectively). Conversely, this analog retained much of the opioid binding activity of Dyn-A(1-13) (relative binding potencies of 15 and 72% for the displacement of 3HET and 3HEKC, respectively). The replacement of Phe4 by Trp also caused drastic decreases in the activity of the peptide in the smooth muscle preparations (relative potencies of 0.8 and 8.8% on the GPI and MVD) while much of the binding potency to the opioid receptors was retained (31 and 67% for the displacement of 3HET and 3HEKC, respectively). Ala2,Trp4-Dyn-A(1-13) was the least potent peptide tested in the smooth muscle assays (relative potencies: 0.1 and 0.6%). However, this latter analog still retained some opioid binding activity in the displacement of 3HET to rat brain homogenates (3%).
The synthesis of the four regioisomers of monothionated Leu-enkephalins (Leu-Enk) from previously reported protected precursors is described. The Tyr1-thio analog was obtained as a 1:1 mixture of the ...L- and D-Tyr diastereomers. The pure compounds were tested for opiate-like activity by using the guinea-pig ileum (GPI) and mouse vas deferens (MVD) preparations, by assessing analgesic effects following intra-cerebroventricular administration and by examining their ability to displace 3H-D-Ala2, D-Leu5-enkephalin (DADLE) and 3H-dihydromorphine from rat brain homogenates. The results demonstrate that depending on the backbone position of the thioamide function, activity can be decreased or increased. In the smooth muscle preparations as well as in the opiate binding tests, the activity of D,L-Tyr1-thio-Leu-Enk and Gly3-thio-Leu-Enk was reduced. The activity of the latter analog was also diminished in the analgesia test. In all biological assays, Phe4-thio-Leu-Enk was either equally or slightly less potent than the parent compound. However, introduction of the sulfur atom in position 2 of Leu-Enk increased the potency of the compound in all assays, the MVD assay being the most sensitive. The results are interpreted in terms of the thioamide (amide) function in receptor recognition processes, the probable behavior of thiopeptides toward physiologically relevant peptidases and the structural divergences between tissue-specific receptors.
Dynorphin-(1-13) (Dyn-(1-13 and its analogs substituted by single introduction of Ala in positions 1-11 were synthesized by the solid-phase method and purified by high pressure liquid chromatography. ...Relative potencies of the synthetic compounds were determined by their ability to inhibit electrically-evoked contractions of the guinea pig ileum (GPI) and of the mouse vas deferens (MVD) and to compete with 3H-etorphine for opiate receptors in rat brain homogenates. Introduction of Ala in positions 1 and 4 of Dyn-(1-13) provoked most important decreases in the activity of the molecule in the three assays (relative potency of 0.2% or less). Substitution of Ala in positions 2 or 5, but not 3, also severely decreased the potency of the peptide in the smooth muscle preparations (0.6-5.0% activity). However, the opiate receptor binding assay was less sensitive to the replacement of residue in position 2 (20% activity) than that in positions 3 or 5 (12% and 6% relative potencies, respectively). In the GPI assay and the opiate binding test, the other substitutions which greatly lowered the potency of the molecule were seen in positions 6, 7, 9 and 11, four basic residues. Among these, Arg6 and Arg7 were demonstrated to be the most important in the three biological tests. Finally, the replacement of Ile8 by Ala increased the relative potency of Dyn-(1-13) up to 191% and 900% in the MVD and the opiate binding tests, respectively.