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Background and aims: Lysophosphatidylcholine (LPC) - a main component of oxidized LDL -is involved in endothelial dysfunction that precedes atherosclerosis, with an increased superoxide anions and a reduced NO production via endothelial NO synthase (eNOS) uncoupling. However, there is no evidence about the mechanisms involved in neuronal NOS (nNOS) uncoupling. Extracellular signal-regulated kinase (ERK) is related to the control of NO production and inflammatory gene transcription activation in atherosclerosis. Our aim was to investigate the role of nNOS/ERK1/2 pathway on endothelial dysfunction induced by LPC, in mouse aorta and human endothelial cells. Methods: Thoracic aorta from wild type mice was used to perform vascular reactivity studies in the presence or absence of LPC. Human endothelial cells were used to investigate the effect of LPC on expression of nNOS and his products NO and H2O2. Results: LPC reduced acetylcholine (ACh)-induced vasodilation in mouse aorta (Emax(CT/LPC) = similar to 95 +/- 2/ 62 +/- 3%, p = 0.0004) and increased phenylephrine-induced vasoconstriction (Emax(CT/LPC) = similar to 4 +/- 0,1/ 6 +/- 0,1 mN/mm, p = 0.0002), with a reduction in NO (fluorescence intensity(CT/LPC) = 91 +/- 3/62 +/- 2 x 10(3), p = 0.0002) and H2O2 (fluorescence intensityCT/LPC = similar to 16 +/- 0,8/10 +/- 0,7 x 10(3), p = 0.0041) production evocated by ACh. An inhibition of nNOS by TRIM (Emax(CT/CT+TRIM) = similar to 93 +/- 1/43 +/- 3%, p = 0,0048; Emax(LPC/LPC+TRIM) = similar to 62 +/- 3/65 +/- 3%) or H2O2 degradation by catalase (Emax(CT/CT+cat) = similar to 93 +/- 1/46 +/- 2%, p < 0,001; Emax(LPC/LPC+cat) = similar to 62,8 +/- 3,2/60,5 +/- 4,7%) reduced the relaxation in the control but not in LPC group. PD98059, an ERK1/2 inhibitor, abolished the increase in vasoconstriction in LPC-treated vessels (Emax(LPC/LPC+PD) = similar to 6 +/- 0,1/3 +/- 0,1 mN/mm, p = 0.0001). LPC also reduced the dimer/monomer proportion and increased nNOS(ser852) phosphorylation. Conclusions: LPC induced nNOS uncoupling and nNOS(Ser852) phosphorylation, reduced NO and H2O2 production and improved superoxide production by modulating ERK1/2 activity in human and murine endothelial cells. (C) 2016 Elsevier Ireland Ltd. All rights reserved.
Viesturs Simanis, Andrea Krapp, Bastien Mangeat, Özge Uysal Özdemir
Viesturs Simanis, Andrea Krapp, Bastien Mangeat, Özge Uysal Özdemir