Mulligan Christopher M, Friedman Jacob E
Section of NeonatologyDepartment of Pediatrics, University of Colorado Anschutz Medical Campus, Aurora, Colorado, USA.
Section of NeonatologyDepartment of Pediatrics, University of Colorado Anschutz Medical Campus, Aurora, Colorado, USA
J Endocrinol. 2017 Oct;235(1):R1-R12. doi: 10.1530/JOE-17-0303. Epub 2017 Jul 27.
Transmission of metabolic diseases from mother to child is multifactorial and includes genetic, epigenetic and environmental influences. Evidence in rodents, humans and non-human primates support the scientific premise that exposure to maternal obesity or high-fat diet during pregnancy creates a long-lasting metabolic signature on the infant innate immune system and the juvenile microbiota, which predisposes the offspring to obesity and metabolic diseases. In neonates, gastrointestinal microbes introduced through the mother are noted for their ability to serve as direct inducers/regulators of the infant immune system. Neonates have a limited capacity to initiate an immune response. Thus, disruption of microbial colonization during the early neonatal period results in disrupted postnatal immune responses that highlight the neonatal period as a critical developmental window. Although the mechanisms are poorly understood, increasing evidence suggests that maternal obesity or poor diet influences the development and modulation of the infant liver and other end organs through direct communication via the portal system, metabolite production, alterations in gut barrier integrity and the hematopoietic immune cell axis. This review will focus on how maternal obesity and dietary intake influence the composition of the infant gut microbiota and how an imbalance or maladaptation in the microbiota, including changes in early pioneering microbes, might contribute to the programming of offspring metabolism with special emphasis on mechanisms that promote chronic inflammation in the liver. Comprehension of these pathways and mechanisms will elucidate our understanding of developmental programming and may expand the avenue of opportunities for novel therapeutics.
代谢性疾病从母亲传给孩子是多因素的,包括遗传、表观遗传和环境影响。啮齿动物、人类和非人类灵长类动物的证据支持了这样一个科学前提,即孕期暴露于母体肥胖或高脂饮食会在婴儿先天免疫系统和幼年微生物群上产生持久的代谢特征,使后代易患肥胖和代谢性疾病。在新生儿中,通过母亲引入的胃肠道微生物因其作为婴儿免疫系统直接诱导物/调节物的能力而受到关注。新生儿启动免疫反应的能力有限。因此,新生儿早期微生物定植的破坏会导致出生后免疫反应紊乱,这突出了新生儿期是一个关键的发育窗口。尽管其机制尚不清楚,但越来越多的证据表明,母体肥胖或不良饮食会通过门静脉系统的直接通讯、代谢产物产生、肠道屏障完整性改变以及造血免疫细胞轴等方式影响婴儿肝脏和其他终末器官的发育和调节。本综述将重点关注母体肥胖和饮食摄入如何影响婴儿肠道微生物群的组成,以及微生物群的失衡或适应不良,包括早期先驱微生物的变化,可能如何导致后代代谢编程,特别强调促进肝脏慢性炎症的机制。对这些途径和机制的理解将阐明我们对发育编程的认识,并可能拓宽新疗法的机会。