Combinatory approaches prevent preterm birth profoundly exacerbated by gene-environment interactions
Jeeyeon Cha, … , Sudhansu K. Dey, Yasushi Hirota
Jeeyeon Cha, … , Sudhansu K. Dey, Yasushi Hirota
Published August 27, 2013
Citation Information: J Clin Invest. 2013;123(9):4063-4075. https://doi.org/10.1172/JCI70098.
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Research Article Reproductive biology

Combinatory approaches prevent preterm birth profoundly exacerbated by gene-environment interactions

Abstract

There are currently more than 15 million preterm births each year. We propose that gene-environment interaction is a major contributor to preterm birth. To address this experimentally, we generated a mouse model with uterine deletion of Trp53, which exhibits approximately 50% incidence of spontaneous preterm birth due to premature decidual senescence with increased mTORC1 activity and COX2 signaling. Here we provide evidence that this predisposition provoked preterm birth in 100% of females exposed to a mild inflammatory insult with LPS, revealing the high significance of gene-environment interactions in preterm birth. More intriguingly, preterm birth was rescued in LPS-treated Trp53-deficient mice when they were treated with a combination of rapamycin (mTORC1 inhibitor) and progesterone (P4), without adverse effects on maternal or fetal health. These results provide evidence for the cooperative contributions of two sites of action (decidua and ovary) toward preterm birth. Moreover, a similar signature of decidual senescence with increased mTORC1 and COX2 signaling was observed in women undergoing preterm birth. Collectively, our findings show that superimposition of inflammation on genetic predisposition results in high incidence of preterm birth and suggest that combined treatment with low doses of rapamycin and P4 may help reduce the incidence of preterm birth in high-risk women.

Authors

Jeeyeon Cha, Amanda Bartos, Mahiro Egashira, Hirofumi Haraguchi, Tomoko Saito-Fujita, Emma Leishman, Heather Bradshaw, Sudhansu K. Dey, Yasushi Hirota

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Figure 1

Mild inflammatory insult in p53d/d female mice upregulates decidual COX2 signaling and renders ovaries more sensitive to luteolysis.

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Mild inflammatory insult in p53d/d female mice upregulates decidual COX2...
(A) Immunohistochemistry showed upregulated COX2 expression in the decidua of Trp53loxP/loxPPgrCre/+ (p53d/d) mice 12 hours after an injection of 10 μg LPS at 1900h on day 16 of pregnancy. Dec, decidua; Sp, spongiotrophoblast; Lb, labyrinth. Scale bar: 250 μm. (B) Mass spectrometric analysis showed that uterine levels of PGF2α, but not PGE2, are significantly upregulated in LPS-treated p53d/d females as compared with Trp53loxP/loxPPgr+/+ (p53fl/fl) littermates. This upregulation was suppressed by celecoxib treatment. Three to 6 independent samples isolated from each mouse were analyzed (n = 3–5 mice/treatment group; mean ± SEM; *P < 0.05). (C) Serum P4 levels were measured 12 hours after LPS or vehicle injection. p53d/d females showed significant decreases in serum P4 levels as compared with p53fl/fl littermates, which did not show any significant differences (mean ± SEM; *P < 0.05). (D) qPCR results showed significant upregulation of Akr1c18 in ovaries of p53d/d females after LPS injection compared with those in p53fl/fl littermates. This upregulation was attenuated by rapamycin (Rapa) and P4 treatment (mean ± SEM). (E) Immunohistochemistry for 20αHSD in CL of vehicle-treated p53fl/fl and p53d/d females showed similar signal levels, as compared with increased signal levels in CL of p53d/d females 12 hours after LPS injection, albeit with some increases in p53fl/fl CL. As expected, sections of ovaries from p53fl/fl females on day 20 of pregnancy prior to parturition showed higher expression of 20αHSD (positive control). Scale bars: 100 μm.