ENDOTHELIAL DYSFUNCTION EXACERBATES THE IMPAIRMENT OF RELAXATION BY LYSOPHOSPHATIDYLCHOLINE IN PORCINE CORONARY ARTERY

Abstract

SUMMARY: 1. Current evidence suggests that lysophosphatidylcholine (LPC), a component found in oxidized low‐density lipoprotein (Ox‐LDL), inhibits endothelium‐dependent relaxation (EDR) mediated by endothelium‐derived relaxing factor (EDRF) and endothelium‐derived hyperpolarizing factor (EDHF). An objective of the present study was to characterize the roles of the different elements of EDR in LPC‐induced impairment within the porcine coronary artery. Concomitantly, we sought to determine whether impairment of one component of EDR would increase the sensitivity of the endothelium to LPC.2. Bradykini. (0.1 nmol/L‐0.3 μmol/L) relaxed U46619 (30 nmol/L)‐precontracted porcine coronary artery rings in a concentration‐dependent manner. A reduction in the bradykinin‐elicited response was observed in N^G‐nitro‐L‐arginine methyl ester (L‐NAME; 300 μmol/L)‐ and ouabain (50 μmol/L)‐treated rings. Pretreatment with LPC (20 μmol/L), which on its own had no effect on normal endothelial relaxation, resulted in further inhibition of EDRF‐ and EDHF‐induced relaxations.3. Our results demonstrate that EDRF and EDHF are the primary mediators of EDR in the porcine coronary artery. Our data also show that while a low concentration of LPC (20 μmol/L) does not impair EDR, it can evoke vascular dysfunction following blockade of either the effects of EDRF or EDHF. Therefore, these data suggest that the partially damaged vascular endothelium could be more sensitive to threshold levels of this atherogenic phospholipid.