DGCR8 is a RNA-binding protein working with DROSHA to produce pre-microRNA in the nucleus, while DICER does not only mature microRNA but also endogenous siRNAs in the cytoplasm. Here, we have produced Dgcr8 conditional knock-out mice using progesterone receptor (PR)-Cre (Dgcr8flox/flox; PRcre/+ mice, Dgcr8d/d) and demonstrated that canonical microRNAs dependent of DROSHA-DGCR8 complex are required for uterine development as well as female fertility in mice. Adult Dgcr8d/d females did not undergo regular reproductive cycle and produce any pups when housed with fertile males, whereas administration of exogenous gonadotropins induced normal ovulation with corpus luteal formation in these mice. Ovulated oocytes from Dgcr8d/d mice had comparable fertilization potentials and were normally developed to the blastocyst after fertilization as compared to those in control Dgcr8f/f mice. Interestingly, PR-Cre-dependent Dgcr8 deletion showed aberrant infiltration of acute inflammatory immune cells to female reproductive organs only when Dgcr8d/d mice were mated with male mice. With respect to uterine development, gross morphology, histology, and weight of Dgcr8d/d uterus were similar to those of control at 3-week-old age. However, multiple uterine abnormalities were noticeable at 4-week-old age when PR expression is significantly increased, and these deformities became severe onwards. Gland formation and myometrial layers were significantly reduced, and stromal cell compartment did not expand and became atrophic during uterine development in these mice. These results were consistent with aberrantly reduced cell proliferation in stromal cell compartments of Dgcr8d/d mice. Collectively, our results suggest that DGCR8 dependent-canonical microRNAs are essential for development and physiology of the uterus with respect to morphogenesis, proper immune modulation, reproductive cycle, and steroid hormone responsiveness in mice.

DGCR8 is a RNA-binding protein working with DROSHA involved in critical processes for microRNA production in the nucleus. To understand function of miRNAs in the uterus, we have produced uterus-specific Dgcr8 conditional knock-out mice using two well-known Cre mouse models, anti-Mullerian hormone receptor 2 (Amhr2)-Cre and progesterone receptor (PR)-Cre. Dgcr8flox/flox;PRcre/+ mice were mainly analyzed and considered as uDgcr8 KO in this study unless otherwise indicated as Dgcr8flox/flox;Amhr2cre/+ mice. Morphological and histological analyses, embryo cultures, genomic DNA PCR, realtime RT-PCR and Western blotting were performed. uDgcr8 KO females bred with fertile males did not produce any offspring, suggesting that these mice are infertile. Vaginal smear analyses showed that these mice do not undergo estrous cycle, whereas Dgcr8flox/flox;Amhr2cre/+ mice exhibited regular estrous cyclicity. In vitro culture of 2-cell stage embryos and histological analyses for CL in uDgcr8 KO demonstrated that they can respond to gonadotrophins to ovulate healthy oocytes with comparable fertilization potentials as compared to those in Dgcr8flox/flox mice (Control). Gross morphology, histology, and weight of uteri of uDgcr8 KO mice were similar to those of control at 3-week-old stage. However, uterus become extremely thinner and shorter from 4-week-old stage onward. Histological examination showed significant reduction in gland numbers and stromal area from 4-week-old stage. Interestingly, this phenotype is reflected by significant increase of PR expression in the uteri of 4-week-old mice. In addition, stromal cell proliferation of uDgcr8 KO is severely impaired. BrdU incorporation experiments showed that while epithelial cells undergo proliferation by E2 treatment, stromal cells do not incorporate BrdU under the uterine conditions provided with E2+P4. Collectively, these results conclude that microRNAs are essential for uterine stromal cell proliferation in mice.