Oxidative modification of HDL3 in vitro and its effect on PLTP-mediated phospholipid transfer.

The oxidation of HDL3 by Cu(II) and its effect on the ability of these particles to act as phospholipid acceptors in human plasma phospholipid transfer protein (PLTP)-mediated lipid transfer were investigated. Oxidation of HDL3 was monitored by measuring the following parameters: (i) formation of conjugated dienes, (ii) production of thiobarbituric acid reactive substances (TBARS), (iii) decrease in reactive lysine and (iv) tryptophan residues, (v) change in particle charge and (vi) diameter, and (vii) oligomerisation of apoA-I and apoA-II. Formation of conjugated dienes was the parameter responding to the oxidative treatment with the fastest kinetics. The appearance of TBARS and modification of apolipoprotein tryptophan residues were detected simultaneously but required higher Cu(II) concentrations for maximal kinetics. Cross-linking of the major protein constituents of HDL3, apoA-I and apoA-II, represented later steps of the oxidation process. Further, the oxidative modification was accompanied by a progressive change in HDL3 particle charge and a minor increase in particle diameter. PLTP-mediated phospholipid transfer to the oxidized particles was investigated using an assay measuring the transfer of fluorescent, pyrene-labeled PC. The transfer was significantly inhibited, but only after extensive modification of the HDL proteins, suggesting that the HDL oxidative modifications occurring in vivo do not essentially impair its phospholipid acceptor function. A similar but less pronounced inhibition was observed when two other phospholipid transfer proteins, the nonspecific lipid transfer protein (ns-LTP) and the phosphatidylcholine transfer protein (PC-TP), were studied in parallel. This indicates that the inhibition was partly due to unspecific effects of the modification on acceptor particle surface properties, but included an aspect specific for PLTP. Copyright 1998 Elsevier Science B.V.