Maternal expression of the histone demethylase Kdm4a is crucial for pre-implantation development

Aditya Sankar, Susanne Marije Kooistra, Javier Martin Gonzalez, Claes Ohlsson, Matti Poutanen, Kristian Helin*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

28 Citations (Scopus)
120 Downloads (Pure)

Abstract

Regulation of chromatin composition through post-translational modifications of histones contributes to transcriptional regulation and is essential for many cellular processes, including differentiation and development. KDM4A (JMJD2A) is a lysine demethylase with specificity towards di-and tri-methylated lysine 9 and lysine 36 of histone H3 (H3K9me2/me3 and H3K36me2/me3). Here, we report that Kdm4a as a maternal factor plays a key role in embryo survival and is vital for female fertility. Kdm4a(-/-) female mice ovulate normally with comparable fertilization but poor implantation rates, and cannot support healthy transplanted embryos to term. This is due to a role for Kdm4a in uterine function, where its loss causes reduced expression of key genes involved in ion transport, nutrient supply and cytokine signalling, which impact embryo survival. In addition, a significant proportion of Kdm4a-deficient oocytes displays a poor intrinsic ability to develop into blastocysts. These embryos cannot compete with healthy embryos for implantation in vivo, highlighting Kdm4a as a maternal effect gene. Thus, our study dissects an important dual role for maternal Kdm4a in determining faithful early embryonic development and the implantation process.

Original languageEnglish
Pages (from-to)3264-3277
Number of pages14
JournalDEVELOPMENT
Volume144
Issue number18
DOIs
Publication statusPublished - 15-Sept-2017
Externally publishedYes

Keywords

  • Epigenetics
  • Female fertility
  • Histone demethylase
  • Pre-implantation development
  • Maternal effect
  • Transcription
  • HUMAN BREAST-CANCER
  • COLONY-STIMULATING FACTORS
  • ACUTE MYELOID-LEUKEMIA
  • FACTOR-DEFICIENT MICE
  • LUTEINIZING-HORMONE
  • TARGETED DISRUPTION
  • GENE-EXPRESSION
  • NULL MUTATION
  • JMJD2 FAMILY
  • IN-VITRO

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