Placental polyamine metabolism differs by fetal sex, fetal growth restriction, and preeclampsia
Sungsam Gong, … , D. Stephen Charnock-Jones, Gordon C.S. Smith
Sungsam Gong, … , D. Stephen Charnock-Jones, Gordon C.S. Smith
Published July 12, 2018
Citation Information: JCI Insight. 2018;3(13):e120723. https://doi.org/10.1172/jci.insight.120723.
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Research Article Reproductive biology

Placental polyamine metabolism differs by fetal sex, fetal growth restriction, and preeclampsia

Abstract

Preeclampsia and fetal growth restriction (FGR) are major causes of the more than 5 million perinatal and infant deaths occurring globally each year, and both are associated with placental dysfunction. The risk of perinatal and infant death is greater in males, but the mechanisms are unclear. We studied data and biological samples from the Pregnancy Outcome Prediction (POP) study, a prospective cohort study that followed 4,212 women having first pregnancies from their dating ultrasound scan through delivery. We tested the hypothesis that fetal sex would be associated with altered placental function using multiomic and targeted analyses. We found that spermine synthase (SMS) escapes X-chromosome inactivation (XCI) in the placenta and is expressed at lower levels in male primary trophoblast cells, and male cells were more sensitive to polyamine depletion. The spermine metabolite N1,N12-diacetylspermine (DiAcSpm) was higher in the female placenta and in the serum of women pregnant with a female fetus. Higher maternal serum levels of DiAcSpm increased the risk of preeclampsia but decreased the risk of FGR. To our knowledge, DiAcSpm is the first maternal biomarker to demonstrate opposite associations with preeclampsia and FGR, and this is the first evidence to implicate polyamine metabolism in sex-related differences in placentally related complications of human pregnancy.

Authors

Sungsam Gong, Ulla Sovio, Irving L.M.H. Aye, Francesca Gaccioli, Justyna Dopierala, Michelle D. Johnson, Angela M. Wood, Emma Cook, Benjamin J. Jenkins, Albert Koulman, Robert A. Casero Jr., Miguel Constância, D. Stephen Charnock-Jones, Gordon C.S. Smith

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Figure 5

Maternal serum levels of DiAcSpm are regulated by pregnancy complications.

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Maternal serum levels of DiAcSpm are regulated by pregnancy complication...
(A) Proportion of cases with preeclampsia (including all severe cases and nonsevere nonsuperimposed cases as per ACOG 2013 definition; n = 134) or FGR (defined as customized birth weight [BW] centile [<3rd] or the combination of customized BW centile [<10th] and abdominal circumference growth velocity [ACGV] in the lowest decile [ACGVD1]; n = 162) by quintile of maternal serum DiAcSpm at 36 wkGA. P values for linear trend between the quintile and log-odds of each outcome (logistic regression) are reported. (BD) Logistic regression modeling of the association between DiAcSpm (as a continuous variable, odds ratios [ORs] expressed for a 1 SD difference) at 36 wkGA and the risk of (B) preeclampsia (PE) and FGR, as defined in A (2-sided P < 0.001 for all ORs); (C) FGR stratified by phenotype, defined as the combination of (a) customized BW centile between the 3rd and the 10th and ACGVD1, (b) customized BW centile [<3rd] and ACGV deciles between the 2nd and 10th (ACGVD2-10), (c) customized BW centile [<3rd] and ACGVD1 (n = 52, n = 79, and n = 31, respectively; 2-sided unadjusted P = 0.11, P < 0.001, and P < 0.001, respectively; 2-sided adjusted P = 0.086, P < 0.001, and P < 0.001, respectively); (D) PE stratified to nonsevere and severe cases (n = 42 and n = 92, respectively; 2-sided unadjusted P = 0.005 and P < 0.001, respectively; 2-sided adjusted P = 0.013 and P = 0.001, respectively). Reported ORs are unadjusted and adjusted for sFLT1:PlGF at 36 wkGA, fetal sex, maternal age, height, BMI, ethnicity, and smoking status.