Antidipsogenic effects of eel bradykinins in the eel Anguilla japonica

A peptide with bradykinin (BK)-like immunoreactivity was isolated from an incubate of heat-denatured eel plasma with porcine pancreatic kallikrein. The purified peptide had the following amino acid sequence: Arg-Arg-Pro-Pro-Gly-SerTrp-Pro-Leu-Arg. This decapeptide, named eel [[Arg.sup.0]]BK, was identical to two previously identified BK homologs from cod and trout. High conservation of the BK sequence among distant teleost species suggests an important function in this vertebrate group. Bolus intra-arterial injections of eel [[Arg.sup.0]]BK, BK, and [[Arg.sup.0]]-des-[Arg.sup.9]-BK (1-10 nmol/kg) caused significant (P [is less than] 0.05) inhibition of drinking in seawater-adapted eels. The potency of the inhibition was ranked in the following order: [[Arg.sup.0]]BK [is greater than] [[Arg.sup.0]]-des-[Arg.sup.9]-BK = BK. The BK peptides also produced an immediate, transient increase followed by a sustained increase in arterial blood pressure and an initial decrease followed by an increase in heart rate. Strong tachyphylaxis occurred for the cardiovascular effect but not for the antidipsogenic effect. The order of the potency of the cardiovascular actions, [[Arg.sup.0]]BK [is greater than] BK [is greater than] [[Arg.sup.0]]-des-[Arg.sup.9]-BK, was different from that of the antidipsogenic action. Slow infusions of eel [[Arg.sup.0]]BK in the dose range 1-1,000 pmol [multiplied by] [kg.sup.-1] [multiplied by] [min.sup.-1] produced concentration-dependent inhibition of drinking without changes in arterial pressure, plasma osmolality, and hematocrit. At the infusion rate of [is greater than] 100 pmol [multiplied by] [kg.sup.-1] [multiplied by] [min.sup.-1], plasma concentrations of angiotensin II, a potent dipsogenic hormone in eels, increased, suggesting an interaction of the kallikrein-kinin and reninangiotensin systems. In mammals, BK is dipsogenic and vasodepressor, so that our data demonstrate opposite effects on fluid and cardiovascular regulation of BK in the eel and suggest a new physiological role for the kallikrein-kinin system in teleost fish. kallikrein-kinin system; renin-angiotensin system; drinking behavior; cardiovascular effects; teleost fish