器官发生
神经管
胚胎
PI3K/AKT/mTOR通路
胚胎发生
生物
胚胎干细胞
细胞生物学
吗啉
男科
内分泌学
内科学
斑马鱼
信号转导
生物化学
医学
基因
作者
Romina Higa,Fredrick J. Rosario,Theresa L. Powell,Thomas Jansson,Alicia Jawerbaum
出处
期刊:Reproduction
[Bioscientifica]
日期:2021-02-02
卷期号:161 (4): 365-373
被引量:11
摘要
Abstract Mechanistic target of rapamycin (MTOR) is essential for embryo development by acting as a nutrient sensor to regulate cell growth, proliferation and metabolism. Folate is required for normal embryonic development and it was recently reported that MTOR functions as a folate sensor. In this work, we tested the hypothesis that MTOR functions as a folate sensor in the embryo and its inhibition result in embryonic developmental delay affecting neural tube closure and that these effects can be rescued by folate supplementation. Administration of rapamycin (0.5 mg/kg) to rats during early organogenesis inhibited embryonic ribosomal protein S6, a downstream target of MTOR Complex1, markedly reduced embryonic folate incorporation (−84%, P < 0.01) and induced embryo developmental impairments, as shown by an increased resorption rate, reduced embryo somite number and delayed neural tube closure. These alterations were prevented by folic acid administered to the dams. Differently, although an increased rate of embryonic rotation defects was observed in the rapamycin-treated dams, this alteration was not prevented by maternal folic acid supplementation. In conclusion, MTOR inhibition during organogenesis in the rat resulted in decreased folate levels in the embryo, increased embryo resorption rate and impaired embryo development. These data suggest that MTOR signaling influences embryo folate availability, possibly by regulating the transfer of folate across the maternal–embryonic interface.
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