Progesterone and HMOX-1 promote fetal growth by CD8+ T cell modulation
María Emilia Solano, … , Khalil Karimi, Petra Clara Arck
María Emilia Solano, … , Khalil Karimi, Petra Clara Arck
Published March 16, 2015
Citation Information: J Clin Invest. 2015;125(4):1726-1738. https://doi.org/10.1172/JCI68140.
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Research Article Reproductive biology Article has an altmetric score of 8

Progesterone and HMOX-1 promote fetal growth by CD8+ T cell modulation

Abstract

Intrauterine growth restriction (IUGR) affects up to 10% of pregnancies in Western societies. IUGR is a strong predictor of reduced short-term neonatal survival and impairs long-term health in children. Placental insufficiency is often associated with IUGR; however, the molecular mechanisms involved in the pathogenesis of placental insufficiency and IUGR are largely unknown. Here, we developed a mouse model of fetal-growth restriction and placental insufficiency that is induced by a midgestational stress challenge. Compared with control animals, pregnant dams subjected to gestational stress exhibited reduced progesterone levels and placental heme oxygenase 1 (Hmox1) expression and increased methylation at distinct regions of the placental Hmox1 promoter. These stress-triggered changes were accompanied by an altered CD8+ T cell response, as evidenced by a reduction of tolerogenic CD8+CD122+ T cells and an increase of cytotoxic CD8+ T cells. Using progesterone receptor– or Hmox1-deficient mice, we identified progesterone as an upstream modulator of placental Hmox1 expression. Supplementation of progesterone or depletion of CD8+ T cells revealed that progesterone suppresses CD8+ T cell cytotoxicity, whereas the generation of CD8+CD122+ T cells is supported by Hmox1 and ameliorates fetal-growth restriction in Hmox1 deficiency. These observations in mice could promote the identification of pregnancies at risk for IUGR and the generation of clinical interventional strategies.

Authors

María Emilia Solano, Mirka Katharina Kowal, Greta Eugenia O’Rourke, Andrea Kristina Horst, Kathrin Modest, Torsten Plösch, Roja Barikbin, Chressen Catharina Remus, Robert G. Berger, Caitlin Jago, Hoang Ho, Gabriele Sass, Victoria J. Parker, John P. Lydon, Francesco J. DeMayo, Kurt Hecher, Khalil Karimi, Petra Clara Arck

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Figure 5

Generation of CD8+CD122+ T cells is supported by HMOX-1 and contributes to compensation for fetal-growth restriction.

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Generation of CD8+CD122+ T cells is supported by HMOX-1 and contributes ...
Flow-cytometric quantification of CD8+CD122+ T cells in uterus-draining lymph nodes from Pgr+/– mice on gd13.5 (A) and Hmox1+/– mice on gd16.5 (B), compared with their respective WT control on the same gd. (C) CD122+CD8+ T cell frequencies in uterus-draining lymph nodes from control and CoPP-treated nonpregnant female BALB/c mice. Effect of the adoptive transfer (AT) of 0.3 × 106 CD8+CD122+ T cells in Hmox1–/– implantations resulting from Hmox1+/– matings (DG). On gd16.5, fetal weight (D) and placental L/Jz ratio (E) were calculated. (F) Placental labyrinth was also scored for the progress of vascularization (0, low; 3, high). (G) Representative example of a placental labyrinth scoring 0 from a PBS-injected female and of a placental labyrinth scoring 3 from a CD8+CD122+ T cell–transferred female. Scale bar: 0.1 mm. The effect of antibody-induced (αCD8: anti–Lyt 2) CD8+ cell depletion in stress-challenged progesterone-supplemented dams was evaluated on gd16.5 (GI). Here, fetal development according to TS criteria (H), fetal weight (I), and placental L/Jz ratio (J) were calculated. (K) Hypothetical scenario depicting the interaction among progesterone, HMOX-1, and CD8+ T cells in promoting fetal development. Pointed arrows depict activation/promotion, and blunted arrows depict suppression. (E and J) Placental L/Jz ratio was calculated by quantifying the individual areas in Masson-stained placental tissue sections. The n used in each group and experiment is depicted inside the bars (AF and HJ). Bars represent the mean ± SEM. *P ≤ 0.05; **P ≤ 0.001, analyzed by Mann-Whitney U test.