Bradykinin and thromboxane A2reciprocally interact to synergistically stimulate cardiac spinal afferents during myocardial ischemia

Abstract

Myocardial ischemia is a complex process leading to the simultaneous release of a number of mediators, including thromboxane A(2) (TxA(2)) and bradykinin (BK), that activate cardiac spinal afferents. The present study tested the hypothesis that TxA(2) and BK reciprocally interact to excite ischemically sensitive cardiac afferents. Nerve activity of single cardiac afferent units was recorded from the left sympathetic chain or rami communicantes (T(2)-T(5)) of anesthetized cats. Fifty-two ischemically sensitive afferents (conduction velocity = 0.27-3.35 m/s, 7 Adelta-fibers and 45 C-fibers) were identified. Repeated injections (1 microg) of BK into the left atrium (LA) 4 min after the administration of U-46619 (5 microg into the LA), a TxA(2) mimetic, induced a significantly larger cardiac afferent response than the first response to BK (0.61 +/- 0.14 to 1.95 +/- 0.29 vs. 0.66 +/- 0.09 to 2.75 +/- 0.34 impulses/s, first injection vs. second injection, n = 8). Conversely, blockade of TxA(2) receptors with BM-13,177 (30 mg/kg iv) attenuated the responses of eight other afferents to BK (1 microg into the LA) by 45%. In contrast, repeated BK (1 microg into the LA) induced consistent discharge activity in six separate afferents. We then observed that the coadministration of U-46619 (5 microg) and BK (1 microg into the LA) together caused a total response that was significantly higher than the predicted response by the simple addition of the individual responses. BK (1 microg) facilitated eight cardiac afferent responses to U-46619 (5 microg into the LA) by 64%. In contrast, repeated U-46619 (5 microg into the LA) without intervening BK stimulation evoked consistent responses in seven other ischemically sensitive afferents. Finally, inhibition of cyclooxygenase with indomethacin (5 mg/kg iv) eliminated the potentiating effects of BK on the cardiac afferent response to U-46619 (5 microg into the LA) but did not alter the afferent response to U-46619. These data suggest that BK and TxA(2) reciprocally interact to stimulate ischemically sensitive cardiac afferent endings leading to synergistic afferent responses and that the BK sensitization effect is mediated by cyclooxygenase products.