游离铁积累和氧化应激负担诱导鸡卵黄囊在胚胎后期发生铁性萎缩

Huichao Liu, Zehe Song, Xi He, Haihan Zhang
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摘要

本研究旨在探究胚胎发育后期卵黄囊萎缩的铁平衡机制和铁变态反应途径。为研究卵黄囊萎缩的机制,使用了 100 枚鸡蛋。然后,将500枚鸡蛋随机分为5个处理,分别用不同的铁源(如FeSO4、甘氨酸亚铁(Fe-Gly)或去铁胺(DFO))进行卵喂养,研究游离铁含量对孵化质量和胚胎发育的影响。结果表明,从胚胎(E)13到E19,卵黄中的总铁含量下降,但卵黄囊的总铁含量上升(p < 0.05)。铁运输系统基因表达的比较表明,卵黄囊中出现了游离铁的积累和功能障碍。与E13相比,E19期卵黄囊代谢物中组氨酸和硫的含量更高,抑制了谷胱甘肽的合成,导致卵黄囊氧化应激损伤。综合分析E13和E19期铁硫代谢物和基因表达的差异,发现胚胎后期卵黄囊的活化可能是通过上调ACSL4的表达和下调GPX4的表达实现的。此外,与CON相比,FeSO4缩短了孵化时间,而Fe-Gly或DFO推迟了孵化高峰,增加了孵化重量,减少了卵黄残留。综上所述,胚胎后期卵黄囊萎缩可能是由铁失调介导的,这为调节卵黄囊营养和鸡的孵化效率提供了新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Free iron accumulation and oxidative stress burden induce ferroptotic atrophy of chicken yolk sac during the late embryogenesis

Free iron accumulation and oxidative stress burden induce ferroptotic atrophy of chicken yolk sac during the late embryogenesis

The aim of this study was to investigate the mechanism of iron homeostasis and the ferroptosis pathway for yolk sac atrophy during late embryogenesis. To study the mechanism of yolk sac atrophy, 100 eggs were used. Further, 500 eggs were randomly divided into five treatments and in ovo feeding with different iron sources, such as FeSO4, ferrous glycinate (Fe-Gly), or deferoxamine (DFO), to study the effects of free iron content on hatching quality and embryonic development. The results showed that total iron content of yolk decreased, but yolk sac increased from embryonic(E)13 to E19 (p < 0.05). Comparison of gene expression of iron transport systems showed that free iron accumulation and dysfunction occurred in the yolk sac. Yolk sac metabolites at E19 compared to E13 were more enriched in histidine and sulfur pathways, suppressing glutathione synthesis and resulting in oxidative stress damage in the yolk sac. Combined analysis of differential metabolites and gene expression in ferroptosis pathway at E13 and E19 revealed the activation of the yolk sac during late embryogenesis was probably through up-regulation of ACSL4 expression and down-regulation of GPX4 expression. Furthermore, in ovo feeding FeSO4 shortened the incubation time compared to CON, while Fe-Gly or DFO delayed the hatching peak and increased hatching weight with less residual yolk. Collectively, it can be concluded that yolk sac atrophy during late embryogenesis may be mediated by iron disorders and provides a novel insight to modulate yolk sac nutrition, and hatching efficiency in chickens.

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