Plasma lipids and vascular dysfunction in preeclampsia.

The dominating hypothesis of the preeclampsia syndrome (PES) is that placentally derived factors are released to the maternal circulation. These factors are believed to alter endothelial properties resulting in disturbed vasomotor function, increased endothelial permeability, and activation of thrombogenic factors. However, the impact of placentally derived factors on the endothelial cells is influenced by another major variable: the "sensitivity" of the maternal endothelium to the placental factors. Several maternal factors may play a role in determining this sensitivity. They include chronic hypertension, diabetes, and hyperlipidemia. In this article we discuss the possible role of hyperlipidemia (especially high free fatty acids and hypertriglyceridemia) in the pathogenesis of preeclampsia, viewed from this perspective. Pregnancy in general, preeclamptic pregnancy in particular, is associated with a marked hyperlipidemia. We suggest a parallel to atherosclerotic diseases, wherein hyperlipidemia induces endothelial dysfunction, probably by promoting oxidative stress in the arterial wall. The hyperlipidemia of pregnancy may have a similar effect on the endothelial cells. When placentally derived endothelial disturbing factors, like lipid peroxides and trophoblastic components, are released into the maternal circulation, their effects on the endothelium may be enhanced because of hyperlipidemia-mediated activation or "sensitization" of the endothelial cells. Alternatively, placentally derived factors like peroxides may combine with lipoproteins, forming complexes that are more disturbing to cells than the placental factors or lipoproteins are individually. We also discuss the possible role of maternal hyperlipidemia in aggravating placental insufficiency caused by poorly transformed spiral arteries. The hemodynamic flow pattern may be markedly different in completely and incompletely transformed spiral arteries. By analogy to the fundamental role of hemodynamic factors in development of atherosclerosis, we pose the hypothesis that abnormally transformed spiral arteries have an "atherogenic" blood flow pattern that promotes lipid deposition and "acute atherosis".