Regulatory T cells are paramount effectors in progesterone regulation of embryo implantation and fetal growth
Ella S. Green, Lachlan M. Moldenhauer, Holly M. Groome, David J. Sharkey, Peck Y. Chin, Alison S. Care, Rebecca L. Robker, Shaun R. McColl, Sarah A. Robertson
Ella S. Green, Lachlan M. Moldenhauer, Holly M. Groome, David J. Sharkey, Peck Y. Chin, Alison S. Care, Rebecca L. Robker, Shaun R. McColl, Sarah A. Robertson
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Research Article Reproductive biology

Regulatory T cells are paramount effectors in progesterone regulation of embryo implantation and fetal growth

Abstract

Progesterone (P4) is essential for embryo implantation, but the extent to which the pro-gestational effects of P4 depend on the maternal immune compartment is unknown. Here, we investigate whether regulatory T cells (Treg cells) act to mediate luteal phase P4 effects on uterine receptivity in mice. P4 antagonist RU486 administered to mice on days 1.5 and 3.5 postcoitum to model luteal phase P4 deficiency caused fewer CD4+Foxp3+ Treg cells and impaired Treg functional competence, along with dysfunctional uterine vascular remodeling and perturbed placental development in midgestation. These effects were linked with fetal loss and fetal growth restriction, accompanied by a Th1/CD8-skewed T cell profile. Adoptive transfer at implantation of Treg cells — but not conventional T cells — alleviated fetal loss and fetal growth restriction by mitigating adverse effects of reduced P4 signaling on uterine blood vessel remodeling and placental structure and by restoring maternal T cell imbalance. These findings demonstrate an essential role for Treg cells in mediating P4 effects at implantation and indicate that Treg cells are a sensitive and critical effector mechanism through which P4 drives uterine receptivity to support robust placental development and fetal growth.

Authors

Ella S. Green, Lachlan M. Moldenhauer, Holly M. Groome, David J. Sharkey, Peck Y. Chin, Alison S. Care, Rebecca L. Robker, Shaun R. McColl, Sarah A. Robertson

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Figure 5

Treg cell transfer restores placental defects caused by impaired luteal phase P4 signaling.

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Treg cell transfer restores placental defects caused by impaired luteal ...
Female B6 mice were mated to BALB/c males and administered RU486 (1 mg/kg) or vehicle (control) on 1.5 and 3.5 dpc. On 3.5 dpc, approximately 8 hours following the final RU486 dose, females were injected i.v. with 2 × 105 Treg cells (CD4+CD25+), Tconv cells (CD4+CD25), or vehicle control (PBS). Placentas of fetuses from mice on 18.5 dpc were collected, processed, and stained with Masson’s trichrome to visualize the labyrinth zone (LZ) and junctional zone (JZ). (A) Representative midsagittal sections of placentas with labeled LZ and JZ and the LZ-JZ boundary indicated by line. Scale bar = 500 μm. (B) The midsagittal cross-sectional area of JZ and LZ (mm2), JZ proportion (%total area), and LZ/JZ ratio were quantified. (C) Representative midsagittal sections of placentas showing clusters of glycogen trophoblast (GlyT) cells in the JZ, identified by their morphological appearance (indicated by arrows). Scale bar = 100 μm. (D) GlyT cell proportion (% of JZ) was quantified. (B and D) n = 6–9 pregnant dams/group with 2 placentas per dam randomly selected for histological analysis. Data shown as mean ± SEM with average values for individual mice indicated by symbols, analyzed by 1-way ANOVA with Sidak’s post hoc t test, *P < 0.05, **P < 0.01, ***P < 0.001.