Mediators of the secretory response to kinins

Abstract

1 The output of immunoreactive (i) 6 keto prostaglandin F_1α (i6ketoPGF_1α), iPGE₂ and ithromboxane B₂ (iTXB₂) from isolated colonic epithelium of the rat into the apical and basolateral bathing solution has been measured. In some instances tissues were also voltage clamped at 0 mV to measure short circuit current (SCC). 2 Kallidin (lysylbradykinin) stimulated the output of all three eicosanoids, specifically from the basolateral face of the tissue. The output was similar whether or not the tissues were short circuited. 3 Both the SCC response and eicosanoid output were dependent upon the concentration of kallidin, but not in a strictly proportional manner, there being relatively more eicosanoid output at submaximal kinin concentrations. 4 Indomethacin, 5 μm, abolished the eicosanoid output, in response to kinin, while some part of the SCC response remained. 5 Calcium removal from the basolateral bathing fluid severely attenuated the SCC response, reduced the output of i6ketoPGF_1α to half, but left the output of iPGE₂ unchanged. In the presence or absence of calcium it is probable that sufficient PGE material is released to cause part of the SCC changes seen with kinin. 6 Kinin and PGE₁ increased the cyclic AMP content of intact epithelia, provided a phosphodiesterase inhibitor was added at the same time. 7 It is proposed that kinin causes an increase in calcium influx at the basolateral pole of the tissue. This calcium is necessary for the production of some eicosanoids and the subsequent generation of cyclic AMP, which then increases apical chloride permeability. In addition, calcium may facilitate entry of chloride through the basolateral face of the cells by activating a cotransport mechanism.