Human invasive trophoblasts transformed with simian virus 40 provide a new tool to study the role of PPAR{gamma} in cell invasion process

doi:10.1093/carcin/bgg074

Carcinogenesis Advance Access published online on June 5, 2003
Carcinogenesis, doi:10.1093/carcin/bgg074
© 2003 by Oxford University Press

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CANCER BIOLOGY

Human invasive trophoblasts transformed with simian virus 40 provide a new tool to study the role of PPAR ${gamma}$ in cell invasion process

Laëtitia Pavan ¹, Anne Tarrade ¹, Axelle Hermouet ¹, Claude Delouis ², Mattias Titeux ³, Michel Vidaud ⁴, Patrice Thérond ⁵, Danièle Evain-Brion ¹, and Thierry Fournier ¹^*

¹ INSERM U427, Faculté des Sciences Pharmaceutiques et Biologiques, Université René Descartes, Paris 5, 75006 Paris, France
² INRA, UMR 955 de Génétique Moléculaire et Cellulaire, Ecole Vétérinaire d'Alfort, 94704 Maisons-Alfort, France
³ Laboratoire de Biologie Moléculaire de la Différenciation, Université Paris 7, 75005 Paris, France
⁴ Laboratoire de Génétique Moléculaire - UPRES JE 2195, Faculté des Sciences Pharmaceutiques et Biologiques, Université René Descartes, Paris 5, 75006 Paris, France
⁵ Laboratoire de Biochimie, Faculté des Sciences Pharmaceutiques et Biologiques, Université René Descartes, Paris 5, 75006 Paris, France

^* Corresponding author. E-mail: t.fournier{at}pharmacie.univ-paris5.fr.

Received 29 October 2002 ; revised 17 April 2003 ; accepted 22 April 2003

Abstract

Invasive cytotrophoblasts play a key role in the developmentof human placenta and is therefore essential for subsequentdevelopment of the embryo. Human implantation is characterizedby a major trophoblastic invasion that offers a unique modelof a controlled and oriented tumor-like process. The ligand-activatednuclear receptor peroxisome proliferator-activated receptorgamma (PPAR ${gamma}$ ) modulates cell growth and differentiation and mightbe therefore considered as a tumor suppressor. We have recentlyreported that PPAR ${gamma}$ , in synergy with its dimerization partnerRXR ${alpha}$ , controls the invasion of human primary cytotrophoblasts.Because these cells are unable to replicate in culture, we have,in the present study, transformed these primary cells with theSimian Virus 40 large T antigen for studying the role of PPAR ${gamma}$ in cell invasion process. Our results show that the cell lineHIPEC 65 expressed markers of human invasive primary cytotrophoblastas determined by immunocytochemistry, immunobloting and realtime RT-PCR, and were highly invasive in vitro. We have nextstudied the role of PPAR ${gamma}$ /RXR ${alpha}$ heterodimers in cell proliferationand invasion. Our results show that PPAR ${gamma}$ and RXR ${alpha}$ are coexpressedby HIPEC 65 and that, as commonly observed, activation of PPAR ${gamma}$ /RXR ${alpha}$ heterodimers with the specific PPAR ${gamma}$ agonist rosiglitazone inducedlipid droplet accumulation as revealed by oil red O staining.Treatment with rosiglitazone or with the natural PPAR ${gamma}$ agonist15-deoxy- ${delta}$ -(12, 14) PGJ₂ did not modify cell growth, but interestingly,activation of PPAR ${gamma}$ by this synthetic (rosiglitazone) or natural(15d-PGJ₂) ligand markedly inhibited cell invasion in a concentration-dependentmanner. Finally, we showed that other potential natural PPAR ${gamma}$ ligand such as oxidized- but not native-low density lipoproteininhibited cell invasion. This proliferative and invasive humancytotrophoblast cell line from extravillous origin providesa new tool for studying specifically the role of PPAR ${gamma}$ in thecontrol of cell invasion.

Extravillous cytotrophoblast, Human cell line, Invasion, PPAR ${gamma}$ ligands, Simian Virus 40
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Carcinogenesis

Human invasive trophoblasts transformed with simian virus 40 provide a new tool to study the role of PPAR in cell invasion process

Human invasive trophoblasts transformed with simian virus 40 provide a new tool to study the role of PPAR ${gamma}$ in cell invasion process