Abstract
Reduced activity of paraoxonase 1 (PON1), a high-density lipoprotein (HDL)-associated enzyme, has been implicated in the development of atherosclerosis. Post-translational modifications of PON1 may represent important mechanisms leading to reduced PON1 activity. Under atherosclerotic conditions, myeloperoxidase (MPO) is known to associate with HDL. MPO generates the oxidants hypochlorous acid and nitrogen dioxide, which can lead to post-translational modification of PON1, including tyrosine modifications that inhibit PON1 activity. Nitrogen dioxide also drives lipid peroxidation, leading to the formation of reactive lipid dicarbonyls such as malondialdehyde and isolevuglandins, which modify HDL and could inhibit PON1 activity. Because isolevuglandins are more reactive than malondialdehyde, we used in vitro models containing HDL, PON1, and MPO to test the hypothesis that IsoLG formation by MPO and its subsequent modification of HDL contributes to MPO-mediated reductions in PON1 activity. Incubation of MPO with HDL led to modification of HDL proteins, including PON1, by IsoLG. Incubation of HDL with IsoLG reduced PON1 lactonase and antiperoxidation activities. IsoLG modification of recombinant PON1 markedly inhibited its activity, while irreversible IsoLG modification of HDL before adding recombinant PON1 only slightly inhibited the ability of HDL to enhance the catalytic activity of recombinant PON1. Together, these studies support the notion that association of MPO with HDL leads to lower PON1 activity in part via IsoLG-mediated modification of PON1, so that IsoLG modification of PON1 could contribute to increased risk for atherosclerosis, and blocking this modification might prove beneficial to reduce atherosclerosis.
Highlights
Two key polymorphisms in the paraoxonase 1 (PON1) gene (L55M and Q192R polymorphisms) alter its expression and activity and have been associated, albeit inconsistently, with risk for cardiovascular diseases [17,18,19,20]
MPO may inactivate PON1 through additional posttranslational modification because ●NO2 generated by MPO in the presence of nitrite induces lipid peroxidation [23,24,25], leading to the formation of reactive lipid dicarbonyls such as malondialdehyde (MDA), succinaldehyde (SCA), 4-oxo-nonenal (ONE), and isolevuglandins (IsoLGs)
We chose to analyze PON1 lactonase activity [33] rather than PON1 arylesterase and phosphotriesterase activity because lactonase activity was reported to more accurately reflect serum PON1 activity associated with high-density lipoprotein (HDL) than paraoxonase or arylesterase activity [34]
Summary
Two key polymorphisms in the PON1 gene (L55M and Q192R polymorphisms) alter its expression and activity and have been associated, albeit inconsistently, with risk for cardiovascular diseases [17,18,19,20]. Incubation of dextran-isolated HDL (dHDL) with MPO reduced its PON1 lactonase activity by approximately 30% (Fig. 2B). We hypothesized that the effects of MPO on PON1 activity and altered mobility in SDS-PAGE involved generation of IsoLG that modified HDL proteins including PON1.
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