Background ACE inhibitors potentiate kinin-nitric oxide (NO)-dependent
coronary vascular dilation, and NO can modulate myocardial oxygen con
sumption. Whether ACE inhibitors also affect myocardial O-2 consumptio
n has not been established. Methods and Results Production of nitrite,
a metabolite of NO in aqueous solution, in coronary microvessels and
O-2 consumption in myocardium were quantified with the use of in vitro
tissue preparations, the Greiss reaction, and a Clark-type O-2 electr
ode. In coronary microvessels, kininogen (the precursor of kinin; 10 m
u g/mL) and three ACE inhibitors (captopril, enalaprilat. or ramiprila
t; 10(-8) mol/L) increased nitrite production from 76+/-6 to 173+/-15,
123+/-2, 125+/-12, and 153+/-12 pmol/mg, respectively (all P<.05). In
myocardium, kininogen (10 mu g/mL) and captopril, enalaprilat, or ram
iprilat (10(-4) mol/L) reduced cardiac O-2 consumption by 41+/-2%, 19/-3%, 25+/-2%, and 35+/-2%, respectively. The changes in both nitrite
release and O-2 consumption in vitro were blocked by N-omega-nitro-L-a
rginine methyl eater or N-omega-nitro-L-arginine, inhibitors of endoge
nous NO formation. The effects were also blocked by HOE 140, which blo
cks the bradykinin B-2-kinin receptor, and serine protease inhibitors,
which inhibit local kinin formation. Conclusions Our data indicate th
at stimulation of local kinin formation by use of a precursor for kini
n formation or inhibition of kinin degradation by use of ACE inhibitor
s increases NO formation and is important in the control of cardiac O-
2 consumption. Vasodilation and control of myocardial O-2 consumption
by NO may contribute importantly to the therapeutic actions of ACE inh
ibitors in cardiac disease states.