The bradykinin B1 receptor antagonist B9858 inhibits a nociceptive spinal reflex in rabbits

Abstract

There are two bradykinin receptor subtypes, designated B₁ and B₂. Whilst both have been implicated in nociception, it is believed that there is a low level of constitutive expression of B₁ receptors and that their expression is induced by inflammation or tissue damage. The present study investigated the role of B₁ receptors in spinal nociceptive processing using an in vivo electrophysiological assay in decerebrate, spinalized rabbits, a species that shares close B₁ receptor homology with the human receptor. Inflammation was induced in the paw by an injection of complete Freund's adjuvant at least 1 h before recording single motor unit activity of the semitendinous/biceps femoris muscle in response to a noxious pinch of the foot. Control animals received an intraplantar injection of saline. The peptide B₁ receptor antagonist B9858 was administered i.v. and caused dose-dependent and complete inhibition of the nociceptive spinal reflex (ID₅₀ = 1 mg·kg^–1). In control animals without paw inflammation, B9858 had no effect. These findings are consistent with other evidence that peptide B₁ receptor antagonists inhibit spinal nociceptive reflexes only after induction of B₁ receptors by inflammation and support the potential therapeutic utility of B₁ receptor antagonists as analgesic and anti-inflammatory drugs.Key words: bradykinin B₁ receptor, inflammation, spinal reflex, rabbit.