Abstract
Efforts to elucidate the role of lipoprotein [a] (Lp[a]) in atherogenesis have been hampered by the lack of an animal model with high plasma Lp[a] levels. We produced two lines of transgenic mice expressing apolipoprotein [a] (apo[a]) in the liver and crossed them with mice expressing human apolipoprotein B-100 (apoB-100), generating two lines of Lp[a] mice. One had Lp[a] levels of approximately 700 mg/dl, well above the 30 mg/dl threshold associated with increased risk of atherosclerosis in humans; the other had levels of approximately 35 mg/dl. Most of the LDL in mice with high-level apo[a] expression was covalently bound to apo[a], but most of the LDL in the low-expressing line was free. Using an enzyme-linked sandwich assay with monoclonal antibody EO6, we found high levels of oxidized phospholipids in Lp[a] from high-expressing mice but not in LDL from low-expressing mice or in LDL from human apoB-100 transgenic mice (P <0.00001), even though all mice had similar plasma levels of human apoB-100. The increase in oxidized lipids specific to Lp[a] in high-level apo[a]-expressing mice suggests a mechanism by which increased circulating levels of Lp[a] could contribute to atherogenesis.
Highlights
Efforts to elucidate the role of lipoprotein [a] (Lp[a]) in atherogenesis have been hampered by the lack of an animal model with high plasma Lp[a] levels
The mice were produced with a construct encoding a relatively low-molecular-mass form of human apo[a] (ف250 kDa), which is generally associated with high levels of Lp[a] in humans
This is the first animal model in which the Lp[a] levels greatly exceed 30 mg/dl, a level that is necessary to increase the risk of atherosclerosis in humans [32]
Summary
Efforts to elucidate the role of lipoprotein [a] (Lp[a]) in atherogenesis have been hampered by the lack of an animal model with high plasma Lp[a] levels. The increase in oxidized lipids specific to Lp[a] in high-level apo[a]-expressing mice suggests a mechanism by which increased circulating levels of Lp[a] could contribute to atherogenesis.—Schneider, M., J. High-level lipoprotein [a] expression in transgenic mice: evidence for oxidized phospholipids in lipoprotein [a] but not in low density lipoproteins. Tsimikas et al [12] showed that Lp[a] in human plasma contains oxidized phospholipid but free LDL does not. These results were confirmed and extended by Edelstein et al [13], who demonstrated that some oxidized phospholipids in Lp[a] are covalently bound to lysines in kringle V of apo[a]. Defining the physiological significance of these biochemical findings will be greatly facilitated by the availability of an animal model with highlevel expression of Lp[a]
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