Oxidized phospholipids and lipoprotein-associated phospholipase A2 as important determinants of Lp(a) functionality and
pathophysiological role
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Graphical Abstract
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Abstract
Lipoprotein(a) Lp(a) is composed of a low density lipoprotein (LDL)-like particle to which apolipoprotein (a)
apo(a) is linked by a single disulfide bridge. Lp(a) is considered a causal risk factor for ischemic cardiovascular
disease (CVD) and calcific aortic valve stenosis (CAVS). The evidence for a causal role of Lp(a) in CVD and CAVS is
based on data from large epidemiological databases, mendelian randomization studies, and genome-wide association
studies. Despite the well-established role of Lp(a) as a causal risk factor for CVD and CAVS, the underlying
mechanisms are not well understood. A key role in the Lp(a) functionality may be played by its oxidized
phospholipids (OxPL) content. Importantly, most of circulating OxPL are associated with Lp(a); however, the
underlying mechanisms leading to this preferential sequestration of OxPL on Lp(a) over the other lipoproteins, are
mostly unknown. Several studies support the hypothesis that the risk of Lp(a) is primarily driven by its OxPL content.
An important role in Lp(a) functionality may be played by the lipoprotein-associated phospholipase A2 (Lp-PLA2),
an enzyme that catalyzes the degradation of OxPL and is bound to plasma lipoproteins including Lp(a). The present
review article discusses new data on the pathophysiological role of Lp(a) and particularly focuses on the functional
role of OxPL and Lp-PLA2 associated with Lp(a)
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