Induction of Cell-Cycle Arrest by all-trans Retinoic Acid in Mouse Embryonic Palatal Mesenchymal (MEPM) Cells

doi:10.1093/toxsci/kfi030

ToxSci Advance Access originally published online on November 10, 2004
Toxicological Sciences 2005 83(2):349-354; doi:10.1093/toxsci/kfi030

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Induction of Cell-Cycle Arrest by all-trans Retinoic Acid in Mouse Embryonic Palatal Mesenchymal (MEPM) Cells

Zengli Yu^*, Jiuxiang Lin^*, Ying Xiao, Jing Han, Xingzhong Zhang^*, Haichao Jia^*, Yunan Tang and Yong Li^,1

^* School of Stomatology, Peking University, Beijing, 100081, China; School of Public Health, Peking University, Beijing, 100083, China

Received August 8, 2004; accepted October 18, 2004

all-trans retinoic acid (atRA), the oxidative metabolite ofvitamin A, is essential for normal embryonic development. Also,high levels of atRA are teratogenic in many species and caneffectively induce cleft palate in the mouse. Most cleft palateresulted from the failed fusion of secondary palate shelves,and maintenance of the normal cell proliferation is importantin this process of shelf growth. To clarify the mechanism bywhich atRA causes cleft palate, we investigated the effect ofatRA on proliferation activity and cell cycle distribution inmouse embryonic palatal mesenchymal (MEPM) cells. atRA inhibitedthe growth of MEPM cells by inducing apoptosis in a dose-dependentmanner. atRA also caused a G1 block in the cell cycle with anincrease in the proportion of cells in G0/G1 and a decreasein the proportion of cells in S phase, as determined by flowcytometry. We next investigated the effects of atRA on moleculesthat regulate the G1 to S phase transition. These studies demonstratedthat atRA inhibited expression of cyclins D and E at the proteinlevel. Furthermore, atRA treatment reduced phosphorylated Rband decreased cdk2 and cdk4 kinase activity. These data suggestthat atRA had antiproliferative activity by modulating G1/Scell cycle regulators and by inhibition of Rb phosphorylationin MEPM cells, which might account for the pathogenesis of cleftpalate induced by retinoic acid.

Key Words: all-trans retinoic acid; mouse embryonic palatal mesenchymal cells; cell cycle; cyclins; retinoblastoma protein.

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