Rethinking progesterone regulation of female reproductive cyclicity

The progesterone receptor (PGR) is a ligand-activated transcription factor with key roles in the regulation of female fertility. Much has been learned of the actions of PGR signaling through the use of pharmacologic inhibitors and genetic manipulation, using mouse mutagenesis. Characterization of ra...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 113; no. 15; pp. 4212 - 4217
Main Authors Kubota, Kaiyu, Cui, Wei, Dhakal, Pramod, Wolfe, Michael W., Rumi, M. A. Karim, Vivian, Jay L., Roby, Katherine F., Soares, Michael J.
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 12.04.2016
National Acad Sciences
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Summary:The progesterone receptor (PGR) is a ligand-activated transcription factor with key roles in the regulation of female fertility. Much has been learned of the actions of PGR signaling through the use of pharmacologic inhibitors and genetic manipulation, using mouse mutagenesis. Characterization of rats with a null mutation at the Pgr locus has forced a reexamination of the role of progesterone in the regulation of the female reproductive cycle. We generated two Pgr mutant rat models, using genome editing. In both cases, deletions yielded a null mutation resulting from a nonsense frame-shift and the emergence of a stop codon. Similar to Pgr null mice, Pgr null rats were infertile because of deficits in sexual behavior, ovulation, and uterine endometrial differentiation. However, in contrast to the reported phenotype of female mice with disruptions in Pgr signaling, Pgr null female rats exhibit robust estrous cycles. Cyclic changes in vaginal cytology, uterine histology, serum hormone levels, and wheel running activity were evident in Pgr null female rats, similar to wild-type controls. Furthermore, exogenous progesterone treatment inhibited estrous cycles in wild-type female rats but not in Pgr-null female rats. As previously reported, pharmacologic antagonism supports a role for PGR signaling in the regulation of the ovulatory gonadotropin surge, a result at variance with experimentation using genetic ablation of PGR signaling. To conclude, our findings in the Pgr null rat challenge current assumptions and prompt a reevaluation of the hormonal control of reproductive cyclicity.
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Author contributions: K.K. and M.J.S. designed research; K.K., W.C., P.D., and K.F.R. performed research; M.A.K.R. and J.L.V. contributed new reagents/analytic tools; K.K., M.W.W., J.L.V., K.F.R., and M.J.S. analyzed data; and K.K. and M.J.S. wrote the paper.
Edited by R. Michael Roberts, University of Missouri-Columbia, Columbia, MO, and approved March 7, 2016 (received for review February 2, 2016)
2Present address: Department of Veterinary & Animal Sciences, University of Massachusetts, Amherst, MA 01003.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1601825113