Ethanol exposure induces differential microRNA and target gene expression and teratogenic effects which can be suppressed by folic acid supplementation

doi:10.1093/humrep/den439

Hum. Reprod. Advance Access originally published online on December 17, 2008
Human Reproduction 2009 24(3):562-579; doi:10.1093/humrep/den439

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© The Author 2008. Published by Oxford University Press on behalf of the European Society of Human Reproduction and Embryology. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org

Ethanol exposure induces differential microRNA and target gene expression and teratogenic effects which can be suppressed by folic acid supplementation

Lin-Lin Wang¹^,2, Zhaofeng Zhang¹, Qiong Li¹, Ruiyue Yang¹, Xinrong Pei¹, Yajun Xu¹, Junbo Wang¹, Shu-Feng Zhou²^,3 and Yong Li¹^,3

¹ Department of Nutrition and Food Hygiene, School of Public Health, Peking University, Beijing 100191, P. R. China ² Division of Chinese Medicine, School of Health Sciences, WHO Collaborating Center for Traditional Medicine, RMIT University, Bundoora, VIC 3083, Australia

³ Correspondence address. Tel: +86-10-82801177/+61-3-9925-7794; Fax: +86-10-82801177/+61-3-9925-7178; E-mail: liyong{at}bjmu.edu.cn/shufeng.zhou{at}rmit.edu.au

BACKGROUND: microRNAs (miRNAs) play an important role in development andare associated with birth defects. Data are scant on the roleof miRNAs in birth defects arising from exposure to environmentalfactors such as alcohol.

METHODS: In this study, we determined the expression levels of 509 maturemiRNAs in fetal mouse brains with or without prenatal ethanolexposure using a miRNA microarray technique, verified by northernblot and PCR. Mouse embryos in culture were used to examinethe effect of ethanol treatment on expression of the putativetarget genes of miR-10a (Hoxa1 and other Hox members) at mRNAand protein level. Open field and Morris water maze tests werealso performed at post-natal day 35.

RESULTS: Ethanol treatment induced major fetal teratogenesis in miceand caused mental retardation in their offspring, namely lowerlocomotor activity (P < 0.01) and impaired task acquisition.Of the screened miRNAs, miR-10a, miR-10b, miR-9, miR-145, miR-30a-3pand miR-152 were up-regulated (fold change >1.5) in fetalbrains with prenatal ethanol exposure, whereas miR-200a, miR-496,miR-296, miR-30e-5p, miR-362, miR-339, miR-29c and miR-154 weredown-regulated (fold change <0.67). Both miR-10a and miR-10bwere significantly up-regulated (P < 0.01) in brain afterprenatal ethanol exposure. Ethanol treatment also caused majorobstruction in the development of cultured embryos, with down-regulatedHoxa1. Co-incubation with folic acid blocked ethanol-inducedteratogenesis, with up-regulated Hoxa1 and down-regulated miR-10a(P < 0.01).

CONCLUSIONS: The study provided new insights into the role of miRNAs andtheir target genes in the pathogenesis of fetal alcohol syndrome.

Key words: ethanol/miR-10a/miR-10b/birth defects/Hoxa1

Submitted on July 3, 2008; resubmitted on September 1, 2008; accepted on September 27, 2008.

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