Paraoxonase-1 reduces monocyte chemotaxis and adhesion to endothelial cells due to oxidation of palmitoyl, linoleoyl glycerophosphorylcholine.

Objective: High-density lipoprotein (HDL) is postulated to protect against the development of atherosclerosis, in part, by inhibiting the oxidation of low density lipoprotein (LDL) in the sub-endothelial space and thus inhibiting activation of the endothelium. The HDL-associated enzyme, paraoxonase-1, is proposed to be a major protective factor. However, HDL is also prone to oxidation when exposed to peroxynitrite and may therefore, once oxidized, have properties similar to oxidized LDL.

Methods And Results: We exposed human HDL to the peroxynitrite donor 3-morpholinosydnonimine and incubated oxidized HDL with human umbilical vein endothelial cells (HUVECs). Oxidized HDL increased monocyte binding (P<0.001) and enhanced chemotaxis (P<0.001). The major oxidized phospholipids were 1-palmitoyl (stearoyl)-2-[9-oxo]nanoyl(azelaoyl)-sn-glycero-phosphocholine, derived from linoleate-containing phosphatidylcholines, and 1-palmitoyl(stearoyl)-2-[5-oxo]valeroyl(glutaroyl)-sn-glycero-phosphocholine, derived from arachidonate-containing phosphatidylcholines. Incubation of HUVECs with synthetically prepared 1-palmitoyl-2-[9-oxo]nanoyl(azelaoyl)-sn-glycero-phosphocholine, or 1-palmitoyl-2-[5-oxo]valeroyl(glutaroyl)-sn-glycero-phosphocholine increased binding of monocytes (P<0.001) and chemotaxis (P<0.001). Purified paraoxonase-1 reduced monocyte adhesion and chemotaxis (P<0.001).

Conclusions: (i) HDL can be a source of oxidatively-derived bioactive phospholipids; (ii) the fragmented phospholipids with a 9-carbon aldehyde or acid are as effective as a 5-carbon aldehyde or acid at inducing monocyte adhesion and chemotaxis; and (iii) paraoxonase-1 is effective at reducing the activity of these phospholipid oxidation products.