Maternal erythrocyte ENT1–mediated AMPK activation counteracts placental hypoxia and supports fetal growth
Seisuke Sayama, … , Angelo D’Alessandro, Yang Xia
Seisuke Sayama, … , Angelo D’Alessandro, Yang Xia
Published May 21, 2020
Citation Information: JCI Insight. 2020;5(10):e130205. https://doi.org/10.1172/jci.insight.130205.
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Research Article Development Hematology

Maternal erythrocyte ENT1–mediated AMPK activation counteracts placental hypoxia and supports fetal growth

Abstract

Insufficient O2 supply is frequently associated with fetal growth restriction (FGR), a leading cause of perinatal mortality and morbidity. Although the erythrocyte is the most abundant and only cell type to deliver O2 in our body, its function and regulatory mechanism in FGR remain unknown. Here, we report that genetic ablation of mouse erythrocyte equilibrative nucleoside transporter 1 (eENT1) in dams, but not placentas or fetuses, results in FGR. Unbiased high-throughput metabolic profiling coupled with in vitro and in vivo flux analyses with isotopically labeled tracers led us to discover that maternal eENT1–dependent adenosine uptake is critical in activating AMPK by controlling the AMP/ATP ratio and its downstream target, bisphosphoglycerate mutase (BPGM); in turn, BPGM mediates 2,3-BPG production, which enhances O2 delivery to maintain placental oxygenation. Mechanistically and functionally, we revealed that genetic ablation of maternal eENT1 increases placental HIF-1α; preferentially reduces placental large neutral aa transporter 1 (LAT1) expression, activity, and aa supply; and induces FGR. Translationally, we revealed that elevated HIF-1α directly reduces LAT1 gene expression in cultured human trophoblasts. We demonstrate the importance and molecular insight of maternal eENT1 in fetal growth and open up potentially new diagnostic and therapeutic possibilities for FGR.

Authors

Seisuke Sayama, Anren Song, Benjamin C. Brown, Jacob Couturier, Xiaoli Cai, Ping Xu, Changhan Chen, Yangxi Zheng, Takayuki Iriyama, Baha Sibai, Monica Longo, Rodney E. Kellems, Angelo D’Alessandro, Yang Xia

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Figure 7

Expression of representative amino acid transporters in placentas from E1FE dams and controls.

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Expression of representative amino acid transporters in placentas from E...
(A) mRNA of LAT1 was increased in placentas from E1FE dams, whereas there was no change in LAT2, SNAT1, and SNAT2. (B) Western blot results also show reduction in LAT1 expression in placentas from E1FE compared with control. (C) Western blot results show stabilized HIF-1α with DMOG 1 mM incubation. (D) mRNA of LAT1 were decreased in HTR cells with incubation of 1 mM DMOG. Values represent the mean ± SEM. **P < 0.01, ***P < 0.005. (E) Working model. ENT1 plays an important role to regulate O2 release capacity and oxidative stress in maternal erythrocytes during pregnancy by controlling AMP/ATP ratio, AMPK-mediated BPGM activity, and 2,3-BPG production. ENT1-mediated O2 delivery from maternal erythrocytes controls placental oxygenation and aa transporter gene expression/activity to support normal fetal growth. Lacking maternal eENT1 leads to decreased O2 delivery to placenta, resulting in increased HIF-1α and, decreased aa gene expression/activity, and fetal growth restriction. Two-tailed Student’s t test was used for statistical analysis.