Maternal loss-of-function of Nlrp2 results in failure of epigenetic reprogramming in mouse oocytes
Zahra Anvar, Michael D. Jochum, Imen Chakchouk, Momal Sharif, Hannah Demond, Alvin K. To, Daniel C. Kraushaar, Ying-Wooi Wan, Simon Andrews, Gavin Kelsey, Ignatia B. Veyver

TL;DR
This study shows that losing the Nlrp2 gene in mice disrupts epigenetic changes in oocytes, but not through direct DNA methylation effects.
Contribution
The study reveals that transcriptome changes in Nlrp2-deficient oocytes are due to post-transcriptional effects, not altered DNA methylation.
Findings
Nlrp2 deficiency leads to overexpression of genes like DNMT1 and ZFP57 in oocytes.
Global DNA methylation patterns remain largely unchanged despite gene expression differences.
Transcriptome differences in Nlrp2-null oocytes are likely due to transcript stability, not transcription.
Abstract
NLRP2 belongs to the subcortical maternal complex (SCMC) of mammalian oocytes and preimplantation embryos. This multiprotein complex, encoded by maternal-effect genes, plays a pivotal role in the zygote-to-embryo transition, early embryogenesis, and epigenetic (re)programming. The maternal inactivation of genes encoding SCMC proteins has been linked to infertility and subfertility in mice and humans. However, the underlying molecular mechanisms for the diverse functions of the SCMC, particularly how this cytoplasmic structure influences DNA methylation, which is a nuclear process, are not fully understood. We undertook joint transcriptome and DNA methylome profiling of pre-ovulatory germinal-vesicle oocytes from Nlrp2-null, heterozygous (Het), and wild-type (WT) female mice. We identified numerous differentially expressed genes (DEGs) in Het and Nlrp2-null when compared to WT oocytes.…
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Taxonomy
TopicsEpigenetics and DNA Methylation · Reproductive Biology and Fertility · Birth, Development, and Health
