β-(2-Thienyl)-D-β-homoglycine

The first sequence-related competitive inhibitors of the classic kinin in vitro (rat uterus guinea pig ileum) and in vivo (rat blood pressure) assays have been developed. Replacement of the proline residue at position 7 of bradykinin (BK) with a D-phenylalanine residue is the key modification which converts BK agonists into antagonists. [D-Phe7]-BK exhibits moderate (pA2 = 5.0) inhibition of BK activity on the guinea pig ileum but possesses weak BK-like myotropic activity on the isolated rat uterus and 2-4% of BK depressor potency in the rat blood pressure assay. The additional replacement of the phenylalanine residues at positions 5 and 8 of [D-Phe7]-BK with the isosteric beta-(2-thienyl)-alanine residue produces a potent antagonist of BK activity on the uterus (pA2 = 6.4), ileum (pA2 = 6.3), and in the rat blood pressure assay. The antagonism of BK action on smooth muscle is specific for kinins (BK, kallidin, Met-Lys-BK), but neither inhibitor antagonizes the smooth muscle activity of angiotensin or substance P. Inhibition is competitive and fully reversible.

The inhibitory properties of beta-2-thienyl-dl-alanine on rat phenylalanine hydroxylase from crude liver and kidney homogenates were assessed in vitro and in vivo, as well as its effects on the intestinal transport of phenylalanine, by using a perfusion procedure in vivo. The apparent K(m) for liver phenylalanine hydroxylase changed from 0.61mm in the absence of the inhibitor to 2.70mm in the presence of 24mm-beta-2-thienyl-dl-alanine, with no significant change in the V(max.). For kidney the corresponding values were 0.50 and 1.60mm respectively. A single dose of beta-2-thienyl-dl-alanine (2mmol/kg) failed to inhibit phenylalanine hydroxylase in either organ. Repeated injections during a 4-day period caused a decline of the enzymic activity to about 40% of controls. Intestinal absorption of phenylalanine when perfused at 0.2-2.0mm concentration was also competitively inhibited by beta-2-thienyl-dl-alanine. Its K(i) value was estimated at 81mm. The limited inhibitory effects of beta-2-thienyl-dl-alanine towards hepatic phenylalanine hydroxylase and phenylalanine intestinal transport, and its rapid metabolism, as suggested by the small elimination of this compound in the urine and its virtual absence from animal tissues, are factors that restrict its potential usefulness as an inducer of phenylketonuria in rats or as an effective blocker of phenylalanine absorption by the gut.

We report the solid phase synthesis and some pharmacological properties of 24 oxytocin (OT) analogues. Basic modifications at position 9 (introduction of L- or D-beta-(2-thienyl)-alanine [L- or D-Thi], or L- or D-3-Pyridylalanine [L- or D-3-Pal]) were combined with D-tyrosine(OEthyl) [D-Tyr(Et)] or D-1-naphthylalanine [D-1-Nal] in position 2 and beta-mercaptopropionic acid (Mpa) in position 1 modifications in altogether 14 analogues. Additionally, 8 analogues having alpha-aminoisobutyric acid [Aib] or D-1,2,3,4-tetrahydroisoquinoline-3-carboxylic acid (D-Tic) or diethylglycine (Deg) in position 9 and D-Tyr(Et) or D-1-Nal or D-Tic in position 2 and Mpa or Pen (beta beta-dimethylcysteine) in position 1 were prepared. Two of these analogues have one more modification in position 6, i.e. Pen. Furthermore, two analogues having Mpa in position 1 and D-Tyr(Et) or D-1-Nal in position 2 were prepared for comparison purposes. The analogues were tested for rat uterotonic activity in vitro, in the rat pressor assay and for binding affinity to human OT receptor. The analogue having the highest anti-oxytocic activity was [Mpa(1), D-Tyr(Et)(2), Deg(9)]OT (pA(2) = 8.68 +/- 0.26); this analogue was also selective.