Bradykinin‐induced oedema formation proceeds from B2 receptor stimulation and is potentiated by concomitantly released prostaglandins

Abstract

Bradykinin, a stimulator of B₁ and B₂ receptors, significantly increased PGI₂ synthesis and fluid extravasation, as assessed by the increase of organ weight when injected intra‐arterially into the artificially perfused rabbit hindquarters preparation. Diclofenac pretreatment prevented PGI₂ synthesis and significantly reduced fluid extravasation. Oedema formation and PGI₂ synthesis were also significantly reduced by a simultaneous infusion of papaverine. Selective stimulation of B₁‐type receptors with des‐Arg^a‐bradykinin was not accompanied by edema formation nor PGI₂ synthesis but by a significant rise in vascular resistance. The combined application of bradykinin and the selective B₁ receptor antagonist des‐Arg⁹‐^‐[Leu⁸]‐bradykinin also resulted in oedema formation and PGI₂ synthesis, the extent, however, being significantly reduced in comparison to the application of bradykinin only. The data suggest that bradykinin‐induced oedema proceeds from B₂ receptor stimulation and is potentiated by simultaneous stimulation of B₁ receptors. The kinin‐induced fluid extravasation seems to be augmented by concomitantly generated prostaglandins.