Signaling through retinoic acid receptors is essential for mammalian uterine receptivity and decidualization
Yan Yin, Meade E. Haller, Sangappa B. Chadchan, Ramakrishna Kommagani, Liang Ma
Yan Yin, Meade E. Haller, Sangappa B. Chadchan, Ramakrishna Kommagani, Liang Ma
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Research Article Reproductive biology

Signaling through retinoic acid receptors is essential for mammalian uterine receptivity and decidualization

Abstract

Retinoic acid (RA) signaling has long been speculated to regulate embryo implantation, because many enzymes and proteins responsible for maintaining RA homeostasis and transducing RA signals are tightly regulated in the endometrium during this critical period. However, due to a lack of genetic data, it was unclear whether RA signaling is truly required for implantation and which specific RA signaling cascades are at play. Herein we utilize a genetic murine model that expresses a dominant-negative form of RA receptor (RAR) specifically in female reproductive organs to show that functional RA signaling is fundamental to female fertility, particularly implantation and decidualization. Reduction in RA signaling activity severely affects the ability of the uterus to achieve receptive status and decidualize, partially through dampening follistatin expression and downstream activin B/bone morphogenetic protein 2 signaling. To confirm translational relevance of these findings to humans, human endometrial stromal cells (hESCs) were treated with a pan-RAR antagonist to show that in vitro decidualization is impaired. RNA interference perturbation of individual RAR transcripts in hESCs revealed that RARα in particular was essential for proper decidualization. These data provide direct functional evidence that uterine RAR-mediated RA signaling was crucial for mammalian embryo implantation, and its disruption led to failure of uterine receptivity and decidualization, resulting in severely compromised fertility.

Authors

Yan Yin, Meade E. Haller, Sangappa B. Chadchan, Ramakrishna Kommagani, Liang Ma

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Figure 5

Reduced follistatin expression and downstream changes in activin/BMP signaling are partially responsible for the fertility defects in RaraDNPgr uterus.

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Reduced follistatin expression and downstream changes in activin/BMP sig...
(A and B) Relative expression levels of Fst and Inhbb on 3.5 dpc (A) and Bmp2 on 4.5 dpc (B). (C) Western blot for phospho-Smad1/5/8 of whole uteri extract from CTRL and RaraDNPgr females on 3.5 dpc. Western blot band density was quantified in ImageJ (NIH), and the relative density calculated as the ratio of pSMAD/GAPDH for each sample was listed. (DG) RNAscope in situ hybridization of Fst on 3.5 dpc (D and E) and Bmp2 on 4.5 dpc (F and G). Positive results manifest as red staining; dotted lines outline the luminal epithelium. (H) Gene expression of decidualization markers in isolated endometrial stromal cells from 2.5 dpc RaraDNPgr uteri treated with recombinant mouse FST at indicated concentrations for 48 hours (n = 2). (I) Gene expression of decidualization markers in uterine segments dissected from 2.5 dpc RaraDNPgr and incubated with luminal agarose beads soaked with BSA or FST for 2 days (n = 2). (J) Appearance of RaraDNPgr mutant uteri 4 days after receiving 2 μg FST via tail vein injection (arrows point to bulging regions resembling implantation sites). (K and L) RNAscope in situ hybridization of Bmp2 (K) and Hand2 (L) showed elevated expression in the bulging region. (M) BCIP/NBP staining of bulging regions shows extensive alkaline phosphatase activity. Asterisks indicate P < 0.05 by t test; a indicates P < 0.05 by 1-way ANOVA between drug group and control group; and b indicates P < 0.05 by 1-way ANOVA between different doses. Scale bars: 50 μm. dpc, days post coitum; CTRL, control; BMP, bone morphogenetic protein 2.