Human placental development attaches the conceptus, through CTB invasion, to the uterus. Within the decidua CTBs intravasate uterine vessels, where they form heterotypic interactions with and soon replace the resident maternal cells. If formation of these unusual vascular connections is abrogated, serious complications, including intrauterine growth retardation and the syndrome preeclampsia (PE) can result. This laboratories recently published work shows that these unusual cell-cell interactions have equally unique molecular underpinnings. Invading CTBs switch their adhesion molecule repertoire to mimic that of the maternal vascular cells they replace. Since the CTBs continue to express differentiation markers that are unique to placental cells, we termed this process pseudovasculogenesis. This switch does not occur in PE, reinforcing its importance for normal pregnancy. Recent unpublished work shows that this transformation is more than """"""""skin deep,"""""""" as the cells also express VEGF/VEGF receptor, Ang/Tie, and ephrin family members that play critical roles in conventional vasculogenesis/angiogenesis. But CTB pseudovasculogenesis presents an interesting conundrum: the cells must execute this differentiation program without triggering angiogenesis in the maternal vessels they invade. The goal of the proposed experiments is to determine how CTBs accomplish this dual feat.
The aims are as follows:
(Aim 1) Finish characterizing ligands and receptors that are expressed as CTBs differentiate/ invade in vivo and in vitro. The goal is to understand which of the master regulators- VEGF/VEGF receptors, Ang/Tie and ephrin/ Eph- have expression patterns consistent with functional roles.
(Aim 2) Determine which receptor-ligand pairs regulate CTB pseudovasculogenesis. The hypothesis that VEGF and Ang family members regulate differentiation in the context of patterning, which is suspected of involving Eph and ephrin interactions.
(Aim 3) Assay the effects of CTB-derived factors on conventional angiogenesis. The hypothesis that CTBs render the uterine vessels they occupy incapable of mounting a conventional angiogenic response will be tested.
(Aim 4) Determine which regulators of CTB vasculogenesis and inhibitors of conventional angiogenesis are misexpressed in PE. The hypothesis that PE is associated with abnormal expression of vasculogenic/angiogenic factors at the maternal-fetal interface will be tested. At the conclusion of these experiments, great advances in our knowledge of the regulatory factors that enable CTBs to mimic endothelial cells during normal pregnancy and how this process changes in PE. The results could also have relevance outside the field of reproduction. For example, CTBs have developed novel strategies for the rendering the uterine vessels they invade quiescent. Whether these mechanisms could inhibit tumor-induced angiogenesis, and consequently tumor growth, is another intriguing possibility.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL064597-02
Application #
6363577
Study Section
Pathology A Study Section (PTHA)
Program Officer
Goldman, Stephen
Project Start
2000-03-07
Project End
2004-02-28
Budget Start
2001-03-01
Budget End
2002-02-28
Support Year
2
Fiscal Year
2001
Total Cost
$368,750
Indirect Cost
Name
University of California San Francisco
Department
Anatomy/Cell Biology
Type
Schools of Dentistry
DUNS #
073133571
City
San Francisco
State
CA
Country
United States
Zip Code
94143
Winn, Virginia D; Gormley, Matthew; Fisher, Susan J (2011) The Impact of Preeclampsia on Gene Expression at the Maternal-Fetal Interface. Pregnancy Hypertens 1:100-8
Maltepe, Emin; Bakardjiev, Anna I; Fisher, Susan J (2010) The placenta: transcriptional, epigenetic, and physiological integration during development. J Clin Invest 120:1016-25
Winn, Virginia D; Gormley, Matthew; Paquet, Agnes C et al. (2009) Severe preeclampsia-related changes in gene expression at the maternal-fetal interface include sialic acid-binding immunoglobulin-like lectin-6 and pappalysin-2. Endocrinology 150:452-62
Winn, Virginia D; Haimov-Kochman, Ronit; Paquet, Agnes C et al. (2007) Gene expression profiling of the human maternal-fetal interface reveals dramatic changes between midgestation and term. Endocrinology 148:1059-79
Okazaki, Kelly; Maltepe, Emin (2006) Oxygen, epigenetics and stem cell fate. Regen Med 1:71-83
Red-Horse, Kristy; Rivera, Jose; Schanz, Andrea et al. (2006) Cytotrophoblast induction of arterial apoptosis and lymphangiogenesis in an in vivo model of human placentation. J Clin Invest 116:2643-52
Ernkvist, Mira; Aase, Karin; Ukomadu, Chinwe et al. (2006) p130-angiomotin associates to actin and controls endothelial cell shape. FEBS J 273:2000-11
Chenais, Benoit; Derjuga, Anna; Massrieh, Wael et al. (2005) Functional and placental expression analysis of the human NRF3 transcription factor. Mol Endocrinol 19:125-37
Red-Horse, Kristy; Kapidzic, Mirhan; Zhou, Yan et al. (2005) EPHB4 regulates chemokine-evoked trophoblast responses: a mechanism for incorporating the human placenta into the maternal circulation. Development 132:4097-106
Maltepe, Emin; Krampitz, Geoffrey W; Okazaki, Kelly M et al. (2005) Hypoxia-inducible factor-dependent histone deacetylase activity determines stem cell fate in the placenta. Development 132:3393-403

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