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Revolutionizing Implantation Studies: Uterine-Specific Models and Advanced Technologies

Shuyun Li, Francesco J. DeMayo

2025Biomolecules12 citationsDOIOpen Access PDF

Abstract

Implantation is a complex and tightly regulated process essential for the establishment of pregnancy. It involves dynamic interactions between a receptive uterus and a competent embryo, orchestrated by ovarian hormones such as estrogen and progesterone. These hormones regulate proliferation, differentiation, and gene expression within the three primary uterine tissue types: myometrium, stroma, and epithelium. Advances in genetic manipulation, particularly the Cre/loxP system, have enabled the in vivo investigation of the role of genes in a uterine compartmental and cell type-specific manner, providing valuable insights into uterine biology during pregnancy and disease. The development of endometrial organoids has further revolutionized implantation research. They mimic the native endometrial structure and function, offering a powerful platform for studying hormonal responses, implantation, and maternal-fetal interactions. Combined with omics technologies, these models have uncovered the molecular mechanisms and signaling pathways that regulate implantation. This review provides a comprehensive overview of uterine-specific genetic tools, endometrial organoids, and omics. We explore how these advancements enhance our understanding of implantation biology, uterine receptivity, and decidualization in reproductive research.

Topics & Concepts

DecidualizationBiologyStromal cellEmbryoUterusEndometriumBioinformaticsComputational biologyCell biologyEndocrinologyCancer researchReproductive System and PregnancyEndometriosis Research and TreatmentEstrogen and related hormone effects
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