Maternal HtrA3 optimizes placental development to influence offspring birth weight and subsequent white fat gain in adulthood

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Li, Ying
Salamonsen, Lois A
Hyett, Jonathan
Costa, Fabricio da Silva
Nie, Guiying
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2017
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Abstract

High temperature requirement factor A3 (HtrA3), a member of the HtrA protease family, is highly expressed in the developing placenta, including the maternal decidual cells in both mice and humans. In this study we deleted the HtrA3 gene in the mouse and crossed females carrying zero, one, or two HtrA3-expressing alleles with HtrA3 males to investigate the role of maternal vs fetal HtrA3 in placentation. Although HtrA3 mice were phenotypically normal and fertile, HtrA3 deletion in the mother resulted in intra-uterine growth restriction (IUGR). Disorganization of labyrinthine fetal capillaries was the major placental defect when HtrA3 was absent. The IUGR caused by maternal HtrA3 deletion, albeit being mild, significantly altered offspring growth trajectory long after birth. By 8 months of age, mice born to HtrA3-deficient mothers, independent of their own genotype, were significantly heavier and contained a larger mass of white fat. We further demonstrated that in women serum levels of HtrA3 during early pregnancy were significantly lower in IUGR pregnancies, establishing an association between lower HtrA3 levels and placental insufficiency in the human. This study thus revealed the importance of maternal HtrA3 in optimizing placental development and its long-Term impact on the offspring well beyond in utero growth.

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Scientific Reports

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7

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1

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© The Author(s) 2017. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

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Reproductive medicine not elsewhere classified

Science & Technology

Multidisciplinary Sciences

Science & Technology - Other Topics

SERINE-PROTEASE HTRA1

A3 HTRA3

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Li, Y; Salamonsen, LA; Hyett, J; Costa, FDS; Nie, G, Maternal HtrA3 optimizes placental development to influence offspring birth weight and subsequent white fat gain in adulthood, Scientific Reports, 2017, 7 (1), pp. 4627

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