AI Article Synopsis
- Retinoblastoma protein (RB) plays a key role in cell cycle arrest (CCA) in the uterus, and progesterone helps activate RB by reducing its inactive form.
- Uterine-specific knockout of the Rb1 gene leads to issues with embryo implantation due to continued cell proliferation and a lack of necroptosis in the epithelial cells, which are essential for proper embryo invasion.
- Pre-implantation supplementation of progesterone can correct these issues, while treating Rb1-deficient cells with thymidine or progesterone enhances necroptosis and improves embryo attachment, highlighting the importance of Rb1 in facilitating successful embryo invasion.
Article Abstract
Retinoblastoma protein (RB) encoded by Rb1 is a prominent inducer of cell cycle arrest (CCA). The hormone progesterone (P ) promotes CCA in the uterine epithelium and previous studies indicated that P activates RB by reducing the phosphorylated, inactive form of RB. Here, we show that embryo implantation is impaired in uterine-specific Rb1 knockout mice. We observe persistent cell proliferation of the Rb1-deficient uterine epithelium until embryo attachment, loss of epithelial necroptosis, and trophoblast phagocytosis, which correlates with subsequent embryo invasion failure, indicating that Rb1-induced CCA and necroptosis of uterine epithelium are involved in embryo invasion. Pre-implantation P supplementation is sufficient to restore these defects and embryo invasion. In Rb1-deficient uterine epithelial cells, TNFα-primed necroptosis is impaired, which is rescued by the treatment with a CCA inducer thymidine or P through the upregulation of TNF receptor type 2. TNFα is expressed in the luminal epithelium and the embryo at the embryo attachment site. These results provide evidence that uterine Rb1-induced CCA is involved in TNFα-primed epithelial necroptosis at the implantation site for successful embryo invasion.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7857437 | PMC |
| http://dx.doi.org/10.15252/embr.202050927 | DOI Listing |
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