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Current Pharmaceutical Biotechnology

Editor-in-Chief

ISSN (Print): 1389-2010
ISSN (Online): 1873-4316

Review Article

Factors Regulating Human Extravillous Trophoblast Invasion: Chemokine-peptidase and CD9-integrin Systems

Author(s): Hiroshi Fujiwara*, Hisanori Matsumoto, Yukiyasu Sato, Akihito Horie, Masanori Ono, Mitsuhiro Nakamura, Yasunari Mizumoto, Kyosuke Kagami, Tomoko Fujiwara, Akira Hattori, Yoshiko Maida, Takiko Daikoku, Kazuhiko Imakawa and Yoshihiko Araki

Volume 19, Issue 10, 2018

Page: [764 - 770] Pages: 7

DOI: 10.2174/1389201019666181029164906

Price: $65

Abstract

The invasion of an extravillous trophoblast (EVT) into maternal decidual tissues, especially towards maternal spiral arteries, is an essential process in the human placental formation and subsequent normal fetal development. However, the precise regulatory mechanisms to induce EVT invasion towards arteries and/or to protect EVT from further invasion are not well understood. We found that a chemokine receptor, CCR1, was specifically expressed on EVT migrating towards maternal arteries. Using EVT isolated from a primary villous explant culture, RANTES, which is one of the ligands for CCR1, was shown to enhance EVT invasion. Furthermore, we observed that the platelets were deposited among intravascular EVT and platelet-derived soluble factors, which contained RANTES, enhanced EVT invasion. On the one hand, dipeptidyl peptidase IV (DPPIV), which can metabolize RANTES on the cell surface, was expressed on non-invading EVT and was demonstrated to suppress EVT invasion. In contrast, laeverin/aminopeptidase Q, which is specifically expressed on EVT, was shown to induce EVT invasion. Also, CD9 which is a cell surface marker of platelets and a regulator of integrin function was expressed on EVT and gene knockdown of the CD9 molecule enhanced EVT invasion. These findings suggest that the chemokine-chemokine receptor, chemokine-peptidase, and CD9-integrin systems play important roles in the regulation of EVT invasion during early human placental formation.

Keywords: CD9, extravillous trophoblast, integrin, invasion, peptidase, platelet.

Graphical Abstract


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