Cornelia Schweinzer scite author profile

Abstract-Although maternal-fetal cholesterol transfer may serve to compensate for insufficient fetal cholesterol biosynthesis under pathological conditions, it may have detrimental consequences under conditions of maternal hypercholesterolemia leading to preatherosclerotic lesion development in fetal aortas. Maternal cholesterol may enter fetal circulation by traversing syncytiotrophoblast and endothelial layers of the placenta. We hypothesized that endothelial cells (ECs) of the fetoplacental vasculature display a high and tightly regulated capacity for cholesterol release. Using ECs isolated from human term placenta (HPECs), we investigated cholesterol release capacity and examined transporters involved in cholesterol efflux pathways controlled by liver-X-receptors (LXRs). HPECs demonstrated 2.5-fold higher cholesterol release to lipid-free apolipoprotein (apo)A-I than human umbilical vein ECs (HUVECs), whereas both cell types showed similar cholesterol efflux to high-density lipoproteins (HDLs). Interestingly, treatment of HPECs with LXR activators increased cholesterol efflux to both types of acceptors, whereas no such response could be observed for HUVECs. In line with enhanced cholesterol efflux, LXR activation in HPECs increased expression of ATP-binding cassette transporters ABCA1 and ABCG1, while not altering expression of ABCG4 and scavenger receptor class B type I (SR-BI). Inhibition of ABCA1 or silencing of ABCG1 decreased cholesterol efflux to apoA-I (Ϫ70%) and HDL 3 (Ϫ57%), respectively. Immunohistochemistry localized both transporters predominantly to the apical membranes of placental ECs in situ. Thus, ECs of human term placenta exhibit unique, efficient and LXR-regulated cholesterol efflux mechanisms. We propose a sequential pathway mediated by ABCA1 and ABCG1, respectively, by which HPECs participate in forming mature HDL in the fetal blood. (Circ Res. 2009;104:600-608.)Key Words: maternal-fetal cholesterol transfer Ⅲ endothelial cells Ⅲ HDL Ⅲ liver X receptors C holesterol is indispensable during fetal development. 1 It has been long assumed that most, if not all, cholesterol required for fetal growth is synthesized de novo by the fetus itself, thus making it autonomous from maternal or placental cholesterol supply. However, several lines of evidence have cast doubt on this notion. 2,3 Fetuses that lack the ability to synthesize cholesterol, such as those with the Smith-LemliOpitz syndrome, are, nevertheless, born with low levels of tissue and plasma cholesterol, indicating that they have acquired maternal cholesterol in utero. 4 Recent exciting studies demonstrated a strong correlation between the size and number of atherosclerotic lesions in human fetal arteries with maternal cholesterol levels. 5,6 Moreover, maternal hypercholesterolemia also modified early predictors of cardiovascular disease in the offspring, thus corroborating the concept of developmental programming of adult disease in human. 7 Considering that progression of atherosclerosis in adults takes ages, these striking resu...

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Adipose triglyceride lipase affects triacylglycerol metabolism at brain barriers

Etschmaier

Becker

Eichmann

et al. 2011

Journal of Neurochemistry

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J. Neurochem. (2011) 119, 1016–1028. Abstract Currently, little is known about the role of intracellular triacylglycerol (TAG) lipases in the brain. Adipose triglyceride lipase (ATGL) is encoded by the PNPLA2 gene and catalyzes the rate‐limiting step of lipolysis. In this study, we investigated the effects of ATGL deficiency on brain lipid metabolism in vivo using an established knock‐out mouse model (ATGL‐ko). A moderate decrease in TAG hydrolase activity detected in ATGL‐ko versus wild‐type brain tissue was accompanied by a 14‐fold increase in TAG levels and an altered composition of TAG‐associated fatty acids in ATGL‐ko brains. Oil Red O staining revealed a severe accumulation of neutral lipids associated to cerebrovascular cells and in distinct brain regions namely the ependymal cell layer and the choroid plexus along the ventricular system. In situ hybridization histochemistry identified ATGL mRNA expression in ependymal cells, the choroid plexus, pyramidal cells of the hippocampus, and the dentate gyrus. Our findings imply that ATGL is involved in brain fatty acid metabolism, particularly in regions mediating transport and exchange processes: the brain–CSF interface, the blood–CSF barrier, and the blood–brain barrier.

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Phospholipid Transfer Protein Is Differentially Expressed in Human Arterial and Venous Placental Endothelial Cells and Enhances Cholesterol Efflux to Fetal HDL

Scholler

Wadsack

Metso

et al. 2012

The Journal of Clinical Endocrinology & Metabolism

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Processing of Endogenous AβPP in Blood-Brain Barrier Endothelial Cells is Modulated by Liver-X Receptor Agonists and Altered Cellular Cholesterol Homeostasis

Schweinzer

Kober

Lang

et al. 2011

JAD

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Impaired clearance of cerebral amyloid-β (Aβ) across the blood-brain barrier (BBB) may facilitate the onset and progression of Alzheimer's disease (AD). Additionally, experimental evidence suggests a central role for cellular cholesterol in amyloid-β protein precursor (AβPP) processing. The present study investigated whether brain capillary endothelial cells (BCEC; the anatomical basis of the BBB) are capable of endogenous AβPP synthesis and whether and to what extent AβPP synthesis and processing is under control of cellular cholesterol homeostasis. Intracellular cholesterol metabolism was pharmacologically manipulated by using natural and synthetic liver-X receptor (LXR) agonists. Using an in vitro model of the BBB consisting of primary porcine BCEC (pBCEC), we demonstrate that endogenous full-length AβPP synthesis by pBCEC is significantly increased while the amount of cell-associated, amyloidogenic Aβ oligomers is decreased in response to 24(S)-hydroxycholesterol (24OH-C) or 27OH-C, TO901317, cholesterol, or simvastatin treatment. Oxysterols, as well as simvastatin, enhanced the secretion of non-amyloidogenic sAβPPα up to 2.5-fold. In parallel, LXR agonists reduced cholesterol biosynthesis by 30-80% while stimulating esterification (up to 2.5-fold) and efflux (up to 2.5-fold) of cellular cholesterol by modifying hydroxymethylglutaryl-CoA reductase (HMGCR), sterol regulatory element-binding protein (SREBP-2), acyl-CoA: cholesterol acyltransferase 2 (ACAT-2), and ATP binding cassette transporter A1 (ABCA1) expression levels. In a polarized in vitro model mimicking the BBB, pBCEC secreted sAβPPα preferentially to the basolateral compartment. In summary endothelial cells of the BBB actively synthesize AβPP, Aβ oligomers, and secrete AβPPα in a polarized manner. AβPP processing by pBCEC is regulated by LXR agonists, which have been proven beneficial in experimental AD models.

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Phospholipid Transfer Protein in the Placental Endothelium Is Affected by Gestational Diabetes Mellitus

Scholler

Wadsack²,

Lang³

et al. 2012

The Journal of Clinical Endocrinology & Metabolism

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