CFP1 governs uterine epigenetic landscapes to intervene in progesterone responses for uterine physiology and suppression of endometriosis.

Progesterone (P) is required for the preparation of the endometrium for a successful pregnancy. P resistance is a leading cause of the pathogenesis of endometrial disorders like endometriosis, often leading to infertility; however, the underlying epigenetic cause remains unclear. Here we demonstrate that CFP1, a regulator of H3K4me3, is required for maintaining epigenetic landscapes of P-progesterone receptor (PGR) signaling networks in the mouse uterus.

The Ratio of Mitochondrial DNA to Genomic DNA Copy Number in Cumulus Cell May Serve as a Biomarker of Embryo Quality in IVF Cycles.

Previous studies have reported that the mitochondrial DNA (mtDNA) contents of cumulus cells (CCs) in ovarian follicular fluid are correlated with embryo quality. Quantification of mtDNA CCs has been suggested as a biomarker of embryo viability. The aim of this study was to determine the relationship between mitochondrial DNA (mtDNA)/genomic DNA (gDNA) ratio in CCs and IVF outcomes such as fertilization rates and embryo quality in infertile women.

Different Cre systems induce differential microRNA landscapes and abnormalities in the female reproductive tracts of Dgcr8 conditional knockout mice.

Objectives: The female reproductive tract comprises several different cell types. Using three representative Cre systems, we comparatively analysed the phenotypes of Dgcr8 conditional knockout (cKO) mice to understand the function of Dgcr8, involved in canonical microRNA biogenesis, in the female reproductive tract.

Materials And Methods: Dgcr8 mice were crossed with Ltf , Amhr2 or PR mice to produce mice deficient in Dgcr8 in epithelial (Dgcr8 ), mesenchymal (Dgcr8 ) and all the compartments (Dgcr8 ) in the female reproductive tract.

Secretory phospholipase A2-X (Pla2g10) is a novel progesterone receptor target gene exclusively induced in uterine luminal epithelium for uterine receptivity in mice.

Background: Aberration of estrogen (E) and/or progesterone (P) signaling pathways affects expression of their target genes, which may lead to failure of embryo implantation and following pregnancy. Although many target genes of progesterone receptors (PRs) have been identified in uterine stroma, only a few PR targets have been reported in the epithelium. Secretory phospholipase A-(PLA)-X, a member of the PLA family that releases arachidonic acids for the synthesis of prostaglandins that are important for embryo implantation, is dysregulated in the endometrium of patients suffering from repeated implantation failure.

An autophagic deficit in the uterine vessel microenvironment provokes hyperpermeability through deregulated VEGFA, NOS1, and CTNNB1.

The uterus undergoes vascular changes during the reproductive cycle and pregnancy. Steroid hormone deprivation induces macroautophagy/autophagy in major uterine cell types. Herein, we explored the functions of uterine autophagy using the -driven deletion model.

Perivascular Stem Cell-Derived Cyclophilin A Improves Uterine Environment with Asherman's Syndrome via HIF1α-Dependent Angiogenesis.

Asherman's syndrome (AS) is characterized by intrauterine adhesions or fibrosis resulting from scarring inside the endometrium. AS is associated with infertility, recurrent miscarriage, and placental abnormalities. Although mesenchymal stem cells show therapeutic promise for the treatment of AS, the molecular mechanisms underlying its pathophysiology remain unclear.

Electroporation of AsCpf1/RNP at the Zygote Stage is an Efficient Genome Editing Method to Generate Knock-Out Mice Deficient in Leukemia Inhibitory Factor.

Backround: CRISPR/Cpf1 is a class II, type V RNA-guided endonuclease that is distinct from the type II CRISPR/Cas9 nuclease, widely used for genome editing. Cpf1 is a smaller and simpler endonuclease than Cas9, overcoming some limitations of the CRISPR/Cas9 system. The applications of CRISPR to rodent embryos for the production of knock-out (KO) mice have been achieved mainly by microinjection, which requires heavily-equipped instruments with skillful hands.

PLGA nanoparticles with multiple modes are a biologically safe nanocarrier for mammalian development and their offspring.

Nano-sized particles (NPs) of various materials have been extensively used as therapeutic and diagnostic agents, drug delivery systems, and biomedical devices. However, the biological impacts of NP exposure during early embryogenesis on following development and next generations have not been investigated. Here, we demonstrated that polylactic-co-glycolic acid (PLGA)-NPs were not toxic and did not perturb development of preimplantation mouse embryos in vitro.

Oestrogen-induced expression of decay accelerating factor is spatiotemporally antagonised by progesterone-progesterone receptor signalling in mouse uterus.

Decay accelerating factor (DAF) is upregulated in the fetoplacental trophoblast, which protects the fetus from maternal complement injury. DAF was found to be downregulated in the endometrium of patients with repeated implantation failure. Thus, we examined the molecular mechanisms of DAF expression regulation by ovarian steroid hormones in the mouse uterus.

Estrogen induces EGR1 to fine-tune its actions on uterine epithelium by controlling PR signaling for successful embryo implantation.

The harmonized actions of ovarian E and progesterone (P) regulate the proliferation and differentiation of uterine cells in a spatiotemporal manner. Imbalances between these hormones often lead to infertility and gynecologic diseases. Whereas numerous factors that are involved in P signaling have been identified, few local factors that mediate E actions in the uterus have been revealed.

Estrogen-induced transcription factor EGR1 regulates c-Kit transcription in the mouse uterus to maintain uterine receptivity for embryo implantation.

Early growth response 1 (Egr1) is a key transcription factor that mediates the action of estrogen (E) to establish uterine receptivity for embryo implantation. However, few direct target genes of EGR1 have been identified in the uterus. Here, we demonstrated that E induced EGR1-regulated transcription of c-Kit, which plays a crucial role in cell fate decisions.

Deficiency in DGCR8-dependent canonical microRNAs causes infertility due to multiple abnormalities during uterine development in mice.

DGCR8 is an RNA-binding protein that interacts with DROSHA to produce pre-microRNA in the nucleus, while DICER generates not only mature microRNA, but also endogenous small interfering RNAs in the cytoplasm. Here, we produced Dgcr8 conditional knock-out mice using progesterone receptor (PR)-Cre (Dgcr8(d/d)) and demonstrated that canonical microRNAs dependent on the DROSHA-DGCR8 complex are required for uterine development as well as female fertility in mice. Adult Dgcr8(d/d) females neither underwent regular reproductive cycles nor produced pups, whereas administration of exogenous gonadotropins induced normal ovulation in these mice.