Preeclampsia is associated with changes in the composition and dysfunction of high-density lipoproteins

Preeclampsia (PE) is a hypertensive disorder of pregnancy associated with abnormal placentation leading to poor placental perfusion, oxidative stress, and inflammation, which then leads to the dysfunction of the maternal endothelium. High density lipoproteins (HDL) exert protective effects on the va...

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Published inArchives of Cardiovascular Diseases Supplements Vol. 11; no. 3; p. e354
Main Authors Picot, Mélanie, Croyal, Mikael, Duparc, Thibaut, Combes, Guillaume, Vayssière, Christophe, Perret, Bertrand, Hamdi, Safouane, Martinez, Laurent, Genoux, Annelise
Format Journal Article
LanguageEnglish
Published Elsevier Masson SAS 01.08.2019
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Summary:Preeclampsia (PE) is a hypertensive disorder of pregnancy associated with abnormal placentation leading to poor placental perfusion, oxidative stress, and inflammation, which then leads to the dysfunction of the maternal endothelium. High density lipoproteins (HDL) exert protective effects on the vascular endothelium, especially by exerting an antioxidant effect and by stimulating the NO (nitric oxide) production by a mechanism involving sphingosine-1 phosphate (S1P). However, HDL can become dysfunctional and lose these protective properties. An increase in low-density lipoprotein (LDL) oxidation and a decrease in NO production have been described in PE. We hypothesized that HDL become dysfunctional in PE and fail to protect the maternal endothelium with, in particular, a loss of their antioxidant properties, explaining the increase of LDL oxidation and an S1P depletion explaining the decrease in NO production. We conducted a case-control study in 10 pregnant women with early severe PE matched by age and gestational age to 10 control healthy pregnant women. We isolated HDL from the serum of patients and control women by ultracentrifugation. In order to evaluate the antioxidant effect of HDL, we incubated human endothelial cells with the purified HDL, LDL and CuSO4 for 6hours. Then, we measured TBARs (ThioBarbituric Acid Reactive Substances) produced in cell culture supernatants. We have also measured the concentrations of S1P and apoM (apolipoproteinM), the apolipoprotein which binds S1P in HDL, by LC-MS-MS. The TBARs levels in culture supernatants were significantly raised when the endothelial cells were incubated with HDL purified from PE women rather than with HDL purified from control pregnant women (respectively 3.24±1.25μM versus 2.50±0.95μM, mean±SD, P=0.02). These data show that HDL from PE patients have less antioxidant effect than HDL from pregnant control women. S1P and apoM concentrations were significantly lower in HDL purified from PE women compared to HDL purified from control pregnant women, with a strong correlation (r=0.75) between the concentrations of these 2 parameters (respectively, 477±131 versus 659±120nM/L for S1P and 1.5±0.3 versus 2.1±0.7mg/dL for apoM, P<0.05). These results show that HDL from PE patients contains less S1P and apoM than HDL from control pregnant women. We showed that HDL from PE pregnant women lose their antioxidant properties and are depleted in S1P and apoM, which could explain respectively the increase in LDL oxidation and the decrease in NO production by the endothelium previously described in the PE. These dysfunctional HDL, whose composition is modified, may be less protective for the vascular endothelium, a mechanism potentially involved in the pathophysiology of endothelial dysfunction seen in PE.
ISSN:1878-6480
DOI:10.1016/j.acvdsp.2019.05.064