Potentiation of bradykinin actions by analogues of the bradykinin potentiating nonapeptide BPP9alpha.

Synthetic analogues of the bradykinin potentiating nonapeptide BPP9alpha indicate significantly different structural requirements for potentiation of the bradykinin (BK)-induced smooth muscle contraction (GPI) and the inhibition of isolated somatic angiotensin I-converting enzyme (ACE). The results disprove the ACE inhibition as the only single mechanism and also the direct interaction of potentiating peptides with the bradykinin receptors in transfected COS-7 cells as molecular mechanism of potentiation. Our results indicate a stimulation of inositol phosphates (IPn) formation independently from the B2 receptor.

Effect of bradykinin analogues on the B1 receptor of rat ileum.

The longitudinal muscle of isolated rat ileum is a sensitive bioassay suitable for testing compounds with antagonistic effects on the B(1) receptor. Bradykinin analogues with replacement of proline by alkyl-substituted phenylalanine at position 7 are effective on this receptor as entire molecules and have a stronger antagonistic effect than on the B(2) receptor. A corresponding desArg(9)-compound has a specific effect on the B(1) receptor and a very high antagonistic potency.

Migratory responses of polymorphonuclear leukocytes to kinin peptides.

The present study examines the influence of kinins on the migratory capacity of human polymorphonuclear leukocytes under in vitro conditions using the Boyden chamber technique. By means of checkerboard analysis the migration of neutrophils induced by bradykinin could be characterized as true chemotaxis. The stimulation of human neutrophils with bradykinin, with the nonpeptide B(2) receptor agonist FR190997 as well as with des-Arg(9)-bradykinin and des-Arg(10)-kallidin results in a concentration-dependent migration.

Degradation of bradykinin by peritoneal and alveolar macrophages of the guinea pig.

Peptidase inhibitors and identification of the peptide fragments were used for the characterization of the bradykinin metabolism by alveolar and peritoneal macrophages. Both cell types show differences in the rate of inactivation and in the quantity of the metabolites generated. BK(1-5), BK(1-8), and BK(1-7) are the predominant direct metabolites.

Structure activity relationships for bradykinin antagonists on the inhibition of cytokine release and the release of histamine.

Highly potent bradykinin antagonists were found to inhibit bradykinin-induced release of cytokines but to stimulate histamine release. Both actions show structural requirements completely different from those for bradykinin B1 and B2 receptors, indicating that the release of some cytokines from spleen mononuclear cells and of histamine from rat mast cells is not mediated by these receptors. Most potent bradykinin antagonists release histamine at lower concentrations than does bradykinin itself.