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. 2025 Mar 6;188(5):1265-1279.e18.
doi: 10.1016/j.cell.2024.12.019. Epub 2025 Jan 21.

KDM6B-dependent epigenetic programming of uterine fibroblasts in early pregnancy regulates parturition timing in mice

Tara I McIntyre  1 Omar Valdez  2 Nathan P Kochhar  3 Brittany Davidson  3 Bushra Samad  3 Longhui Qiu  4 Kenneth Hu  5 Alexis J Combes  6 Adrian Erlebacher  7
Affiliations

KDM6B-dependent epigenetic programming of uterine fibroblasts in early pregnancy regulates parturition timing in mice

Tara I McIntyre et al. Cell. .

Abstract

Current efforts investigating parturition timing mechanisms have focused on the proximal triggers of labor onset generated in late pregnancy. By studying the delayed parturition phenotype of mice with uterine fibroblast deficiencies in the histone H3K27me3 demethylase KDM6B, we provide evidence that parturition timing is regulated by events that take place in early pregnancy. Immediately after copulation, uterine fibroblasts engage in a locus-specific epigenetic program that abruptly adjusts H3K27me3 levels across their genome. In the absence of KDM6B, many of the adjusted loci over-accumulate H3K27me3. This over-accumulation leads to nearby genes being misexpressed in mid-to-late gestation, a delayed effect partly attributable to a second locus-specific but KDM6B-independent process initiated within uterine fibroblasts soon after implantation. This second process employs progressive H3K27me3 loss to temporally structure post-midgestational patterns of gene induction. Further dissection of the ways uterine programming controls parturition timing may have relevance to human pregnancy complications such as preterm labor.

Keywords: H3K27me3; KDM6B; epigenetic programming; fibroblasts; mouse pregnancy; parturition; progesterone; uterus.

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Conflict of interest statement

Declaration of interests The authors declare no competing interests.

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