The role of bradykinin B1 receptors in the maintenance of intra‐articular plasma extravasation in chronic antigen‐induced arthritis

Abstract

1 The role of bradykinin B₁ and B₂ receptors in bradykinin- and des-Arg⁹-bradykinin-induced plasma extravasation in normal and inflamed rat knee joints was investigated by use of an antigen-induced model of chronic arthritis. A modification of an Evans blue extraction technique allowed the unstimulated (basal) plasma extravasation to be assessed in this model. The contributions of bradykinin B₁ and B₂ receptors towards basal synovial plasma extravasation were determined. 2 In normal knees, intra-articular injection of bradykinin (BK) induced plasma extravasation in a potent, dose-dependent manner with a threshold of 0.01 nmol and an ED₅₀ of 0.1 nmol. In day 5 arthritic knees, basal plasma extravasation was substantially enhanced. Lower doses of BK had no demonstrable effect and increases above basal extravasation were first observed at 0.1 nmol. Thereafter the dose-response mirrored the response in normal knees and the maximal response was unaltered. 3 The B₁ agonist, des-Arg⁹-BK, induced slight but significant plasma extravasation in normal knees but was less potent than bradykinin. This response was inhibited by the Bi receptor antagonist, des-Arg⁹, [Leu⁸]-BK. Lower doses of des-Arg⁹-BK bradykinin did not significantly increase basal extravasation in day 5 arthritic knees but, in contrast to BK, the maximal response was significantly enhanced. 4 The B₂ antagonist, Hoe 140, inhibited BK-induced plasma extravasation in normal joints over a dose-range of 0.1-1.0 nmol but was relatively inactive in day 5 inflamed knees. The B₁ receptor antagonist, des-Arg⁹, [Leu⁸]-BK, was relatively inactive in normal joints but showed increased potency against BK-induced plasma extravasation in day 5 arthritic joints. 5 Hoe 140 and des-Arg⁹, [Leu⁸]-BK both inhibited basal extravasation in arthritic joints on days 1 and 5 post-challenge in a dose-dependent fashion. Whilst Hoe 140 was the more potent inhibitor on day 1, it was less potent than des-Arg⁹, [Leu⁸]-BK on day 5. 6 Although the majority of responses to BK in normal tissue are mediated via B₂ receptors, a small population of B₁ receptors may exist in normal joint tissues. The data presented in this study suggest an evolving role for B_x receptors in the mediation of plasma extravasation in inflamed joint tissues. A role for BK antagonists in the treatment of arthritis is also suggested.