LDLs Impair Vasomotor Function of the Coronary Microcirculation : Role of Superoxide Anions

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Circulation Research. 1998;83:404-414

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(Circulation Research. 1998;83:404-414.)
© 1998 American Heart Association, Inc.

Original Contributions

LDLs Impair Vasomotor Function of the Coronary Microcirculation

Role of Superoxide Anions

Travis W. Hein, , Lih Kuo

From the Department of Medical Physiology, Microcirculation Research Institute, Texas A&M University Health Science Center, College Station, Tex.

Correspondence to Lih Kuo, PhD, Department of Medical Physiology, Microcirculation Research Institute, Texas A&M University Health Science Center, College Station, TX 77843-1114. E-mail LKUO{at}TAMU.EDU

Abstract—Oxidized LDLs (Ox-LDLs) inhibit endothelium-dependentdilation of isolated conduit arteries in a manner comparableto the impairment demonstrated in atherosclerotic vessels. However,it is not known whether the microvessels, which do not developatherosclerotic lesions, are susceptible to Ox-LDL. Since endothelialrelease of NO plays an important role in vasodilation and sinceits dysfunction associated with atherosclerosis has been shownto extend into the coronary microcirculation, we hypothesizedthat Ox-LDLs impair endothelium-dependent vasodilation of coronaryarterioles by reducing the synthesis and/or release of NO. Totest this hypothesis, porcine subepicardial vessels (50 to 100µm) were isolated, cannulated, and pressurized to 60 cm H₂Owithout flow for in vitro study. Isolated vessels developedbasal tone and dilated in a dose-dependent manner to the endothelium-dependentvasodilators serotonin, ATP, and ionomycin. These vasodilatoryresponses were inhibited by the NO synthase inhibitor N^G-monomethyl-L-arginine andwere subsequently reversed by extraluminal administration ofthe NO precursor L-arginine (3 mmol/L), suggesting the involvementof NO in these vasomotor responses. Intraluminal incubation ofthe vessels with native LDL (N-LDL) or Ox-LDL (1 mg protein/mL) significantlyattenuated dilations to serotonin, ATP, and ionomycin. Ox-LDLproduced more severe inhibition than did N-LDL, and the inhibitoryeffect was comparable to that of N^G-monomethyl-L-arginine. Theinhibitory effects of N-LDL and Ox-LDL were reversed by exogenousL-arginine (3 mmol/L) and were prevented by sodium dihydroxybenzenedisulfonate (Tiron), a cell-permeable superoxide scavenger.In contrast, administration of the cell-impermeable superoxidescavenger superoxide dismutase prevented the inhibitory effectof N-LDL but not of Ox-LDL. In addition, the inhibitory effectsof LDL were not restored by D-arginine or by removal of intraluminalLDL. Neither N-LDL nor Ox-LDL altered endothelium-independent vasodilationto sodium nitroprusside. These results indicate that coronaryarterioles are susceptible to LDLs that specifically impairendothelium-dependent vasodilation by reducing NO synthesis.It is suggested that the initiation of superoxide anion productionand the subsequent L-arginine deficiency may be responsiblefor the detrimental effect of LDL.

Key Words: arteriole • atherosclerosis • endothelium • L-arginine • nitric oxide • superoxide anion

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