Dietary regulation of developmental programming in ruminants: epigenetic modifications in the germline.

K D Sinclair, A Karamitri, D S Gardner
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Abstract

Ruminants have been utilised extensively to investigate the developmental origins of health and disease, with the sheep serving as the model species of choice to complement dietary studies in the rat and mouse. Surprisingly few studies, however, have investigated delayed effects of maternal undernutrition during pregnancy on adult offspring health and a consistent phenotype, together with underlying mechanistic pathways, has not emerged. Nevertheless, when broad consideration is given to all studies with ruminants it is apparent that interventions that are initiated very early in gestation, and/or prior to conception, lead to greater effects on adult physiology than those that are specifically targeted to late gestation. Effects induced following dietary interventions at the earliest stages of mammalian development have been shown to arise as a consequence of alterations to key epigenetic processes that occur in germ cells and pluripotent embryonic cells. Currently, our understanding of epigenetic programming in the germline is greatest for the mouse, and is considered in detail in this article together with what is known in ruminants. This species imbalance, however, looks set to change as fully annotated genomic maps are developed for domesticated large animal species, and with the advent of 'next-generation' DNA sequencing technologies that have the power to globally map the epigenome at single-base-pair resolution. These developments would help to address such issues as sexually dimorphic epigenetic alterations to DNA methylation that have been found to arise following dietary restrictions during the peri-conceptional period, the effects of paternal nutritional status on epigenetic programming through the germline, and transgenerational studies where, in future, greater emphasis in domesticated ruminants should be placed on traits of agricultural importance.

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反刍动物发育程序的饮食调节:种系的表观遗传修饰。
反刍动物已被广泛用于研究健康和疾病的发育起源,绵羊可作为大鼠和小鼠饮食研究的补充模式物种。然而,令人惊讶的是,很少有研究调查了怀孕期间母亲营养不良对成年后代健康的延迟影响,并且没有出现一致的表型以及潜在的机制途径。然而,当对所有反刍动物的研究进行广泛考虑时,很明显,在妊娠早期和/或怀孕之前开始的干预措施对成年生理的影响比那些专门针对妊娠后期的干预措施更大。在哺乳动物发育的早期阶段,饮食干预引起的影响已被证明是生殖细胞和多能胚胎细胞中发生的关键表观遗传过程改变的结果。目前,我们对生殖系的表观遗传编程的了解最多的是小鼠,本文将与反刍动物的已知情况一起详细讨论。然而,随着驯化的大型动物物种的全注释基因组图谱的开发,以及“下一代”DNA测序技术的出现,这种物种不平衡似乎将会改变,这些技术具有以单碱基对分辨率绘制全球表观基因组图谱的能力。这些发展将有助于解决以下问题:在怀孕期饮食限制后发现的DNA甲基化的性别二态表观遗传改变,父亲营养状况对生殖系表观遗传编程的影响,以及跨代研究,在未来,驯化反刍动物应该更加重视农业重要性的性状。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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