Developmental effects of in utero metformin exposure.

Trends in developmental biology Pub Date : 2021-01-01
Darian T Carroll, Alexa M Sassin, Kjersti M Aagaard, Maureen Gannon
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Abstract

According to the Developmental Origins of Health and Disease (DOHaD) hypothesis, the intrauterine environment influences fetal programming and development, affecting offspring disease susceptibility in adulthood. In recent years, therapeutic use of the Type 2 diabetes drug metformin has expanded to the treatment of pre-diabetes, polycystic ovarian syndrome, and gestational diabetes. Because metformin both undergoes renal excretion and binds to receptors on the placenta, the fetus receives equivalent maternal dosing. Although no teratogenic nor short-term harmful fetal impact of metformin is known to occur, the effects of metformin exposure on longer-range offspring development have not yet been fully elucidated. This review encapsulates the (albeit limited) existing knowledge regarding the potential longer-term impact of intrauterine metformin exposure on the development of key organs including the liver, central nervous system, heart, gut, and endocrine pancreas in animal models and humans. We discuss molecular and cellular mechanisms that would be altered in response to treatment and describe the potential consequences of these developmental changes on postnatal health. Further studies regarding the influence of metformin exposure on fetal programming and adult metabolic health will provide necessary insight to its long-term risks, benefits, and limitations in order to guide decisions for use of metformin during pregnancy.

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子宫内二甲双胍对发育的影响
根据健康与疾病的发育起源(DOHaD)假说,宫内环境会影响胎儿的程序和发育,从而影响后代成年后对疾病的易感性。近年来,2 型糖尿病药物二甲双胍的治疗用途已扩展到治疗糖尿病前期、多囊卵巢综合征和妊娠糖尿病。由于二甲双胍既能通过肾脏排泄,又能与胎盘上的受体结合,因此胎儿在母体中的剂量与胎儿相同。虽然二甲双胍不会致畸,也不会在短期内对胎儿造成危害,但二甲双胍对后代长期发育的影响尚未完全阐明。本综述概括了有关宫内二甲双胍暴露对动物模型和人类主要器官(包括肝脏、中枢神经系统、心脏、肠道和内分泌胰腺)发育的潜在长期影响的现有知识(尽管有限)。我们讨论了因治疗而改变的分子和细胞机制,并描述了这些发育变化对产后健康的潜在影响。有关二甲双胍对胎儿发育和成人代谢健康影响的进一步研究将为了解二甲双胍的长期风险、益处和局限性提供必要的信息,从而为孕期使用二甲双胍的决策提供指导。
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