Aberrant DNA methylation of imprinted loci in superovulated oocytes

doi:10.1093/humrep/del316

Hum. Reprod. Advance Access originally published online on August 21, 2006
Human Reproduction 2007 22(1):26-35; doi:10.1093/humrep/del316

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© The Author 2006. 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

Aberrant DNA methylation of imprinted loci in superovulated oocytes

A. Sato¹^,*, E. Otsu¹^,*, H. Negishi¹, T. Utsunomiya¹ and T. Arima²^,3

¹ St Luke Clinic, Tsumori, Oita, Japan and ² Department of Molecular Genetics, Division of Molecular and Cell Therapeutics, Medical Institute of Bioregulation, Kyusyu University, Beppu, Oita, Japan

³ To whom correspondence should be addressed at: Department of Molecular Genetics, Division of Molecular and Cell Therapeutics, Medical Institute of Bioregulation, Kyusyu University, 4546, Tsurumihara, Beppu, Oita 874-0838, Japan. E-mail: tarima{at}tsurumi.beppu.kyushu-u.ac.jp

BACKGROUND: There is an increased incidence of rare imprintingdisorders associated with assisted reproduction technologies(ARTs). The sex-specific epigenetic modifications that are imposedduring gametogenesis act as a primary imprint to distinguishmaternal and paternal alleles. The most likely candidate forthe gametic mark is DNA methylation. However, the timing ofDNA methylation acquisition in adult oocytogenesis and the effectsof superovulation are unknown. METHODS: We examined the maternalmethylation of PEG1(MEST), LIT1(KCNQ1OT1) and ZAC(PLAGL1) andthe paternal methylation of H19 in adult growing oocytes ofhumans and mice and compared them with the methylation statusof mouse neonatal growing oocytes by using bisulphite sequencing.Furthermore, we examined the effects of superovulation in thehuman and mouse. RESULTS: Maternal methylation of these geneshas already been initiated to some extent in adult human andmouse non-growing oocytes but not in mouse neonates. In addition,the methylation dynamics during adult human and mouse oocytedevelopment changed more gradually than those during neonataloocyte development. Furthermore, we found the demethylationof PEG1 in growing oocytes from some ART-treated infertile womenand a gain in the methylation of H19. We also detected methylationchanges in superovulated mice. CONCLUSION: Our studies in thehuman and mouse suggest that superovulation can lead to theproduction of oocytes without their correct primary imprintand highlight the need for more research into ARTs.

Key words: ART/DNA methylation/genomic imprinting/human adult oocyte/superovulation

^* These authors contributed equally to this work.

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