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Revisiting preeclampsia: a metabolic disorder of the placenta

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journal contribution
posted on 2021-06-29, 08:14 authored by Mingyu Hu, Ji Li, Philip N Baker, Chao Tong
Preeclampsia (PE) is a leading cause of maternal and neonatal mortality and morbidity worldwide, impacting the long-term health of both mother and offspring. PE has long been characterized by deficient trophoblast invasion into the uterus and consequent placental hypoperfusion, yet the upstream causative factors and effective interventional targets for PE remain unknown. Alterations in the metabolism of preeclamptic placentas are thought to result from placental ischemia, while disturbances of the metabolism and of metabolites in PE pathogenesis are largely ignored. In fact, as one of the largest fetal organs at birth, the placenta consumes a considerable amount of glucose and fatty acid. Increasing evidence suggests glucose and fatty acid exist as energy substrates and regulate placental development through bioactive derivates. Moreover, recent findings have revealed that the placental metabolism adapts readily to environmental changes, altering its response to nutrients and endocrine signals; this adaptability optimizes pregnancy outcomes by diversifying available carbon sources for energy production, hormone synthesis, angiogenesis, immune activation, and tolerance, and fetoplacental growth. These observations raise the possibility that carbohydrate and lipid metabolism abnormalities play a role in both the etiology and clinical progression of PE, sparking a renewed interest in the interrelationship between PE and metabolic dysregulation. This review will focus on key metabolic substrates and regulatory molecules in the placenta and aim to provide novel insights with respect to the metabolism’s role in modulating placental development and functions. Further investigations from this perspective are poised to decipher the etiology of PE and suggest potential therapies.

Funding

National Key R&D Program of China. Grant Number: 2018YFC1004103

National Natural Science Foundation of China. Grant Numbers: 81671488, 81871189, 82017576

History

Author affiliation

College of Life Sciences, University of Leicester

Version

  • AM (Accepted Manuscript)

Published in

The Federation of European Biochemical Societies (FEBS) Journal

Publisher

Wiley

issn

1742-464X

eissn

1742-4658

Acceptance date

2021-01-29

Copyright date

2021

Available date

2022-02-02

Spatial coverage

England

Language

English

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