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Poor diet quality in pregnancy is associated with increased risk of excess fetal growth: a prospective multi-racial/ethnic cohort study.孕期饮食质量差与胎儿过度生长的风险增加有关:一项前瞻性的多种族/族裔队列研究。
Int J Epidemiol. 2019 Apr 1;48(2):423-432. doi: 10.1093/ije/dyy285.
3
Plasma Branched-Chain Amino Acids and Risk of Incident Type 2 Diabetes: Results from the PREVEND Prospective Cohort Study.血浆支链氨基酸与2型糖尿病发病风险:PREVEND前瞻性队列研究结果
J Clin Med. 2018 Dec 4;7(12):513. doi: 10.3390/jcm7120513.
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Maternal Diet, Metabolic State, and Inflammatory Response Exert Unique and Long-Lasting Influences on Offspring Behavior in Non-Human Primates.母体饮食、代谢状态和炎症反应对非人灵长类动物后代行为产生独特且持久的影响。
Front Endocrinol (Lausanne). 2018 Apr 23;9:161. doi: 10.3389/fendo.2018.00161. eCollection 2018.
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Branched Chain Amino Acids: Beyond Nutrition Metabolism.支链氨基酸:超越营养代谢。
Int J Mol Sci. 2018 Mar 23;19(4):954. doi: 10.3390/ijms19040954.
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Restoration of metabolic health by decreased consumption of branched-chain amino acids.通过减少支链氨基酸的摄入来恢复代谢健康。
J Physiol. 2018 Feb 15;596(4):623-645. doi: 10.1113/JP275075. Epub 2017 Dec 27.
7
Loss of ERα partially reverses the effects of maternal high-fat diet on energy homeostasis in female mice.雌激素受体α缺失部分逆转了母代高脂肪饮食对雌性小鼠能量平衡的影响。
Sci Rep. 2017 Jul 25;7(1):6381. doi: 10.1038/s41598-017-06560-x.
8
A Branched-Chain Amino Acid-Related Metabolic Signature Characterizes Obese Adolescents with Non-Alcoholic Fatty Liver Disease.一种与支链氨基酸相关的代谢特征可表征患有非酒精性脂肪性肝病的肥胖青少年。
Nutrients. 2017 Jun 22;9(7):642. doi: 10.3390/nu9070642.
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Anti-aging drugs reduce hypothalamic inflammation in a sex-specific manner.抗衰老药物以性别特异性方式减轻下丘脑炎症。
Aging Cell. 2017 Aug;16(4):652-660. doi: 10.1111/acel.12590. Epub 2017 May 20.
10
Sex differences in microglial CX3CR1 signalling determine obesity susceptibility in mice.性别差异在小胶质细胞 CX3CR1 信号转导中决定了肥胖易感性在小鼠中。
Nat Commun. 2017 Feb 22;8:14556. doi: 10.1038/ncomms14556.

母体高脂支链氨基酸饮食暴露对子代下丘脑炎症的性别二态性。

Sexual dimorphism in hypothalamic inflammation in the offspring of dams exposed to a diet rich in high fat and branched-chain amino acids.

机构信息

Department of Biological Sciences, Integrative Biosciences Center, Wayne State University, Detroit, Michigan.

Division of Endocrinology, Diabetes and Metabolism, Diabetes Research Institute, University of Miami, Miller School of Medicine, Miami, Florida.

出版信息

Am J Physiol Endocrinol Metab. 2019 Sep 1;317(3):E526-E534. doi: 10.1152/ajpendo.00183.2019. Epub 2019 Jul 30.

DOI:10.1152/ajpendo.00183.2019
PMID:31361548
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6766606/
Abstract

Branched-chain amino acid (BCAAs: leucine, isoleucine, and valine) contribute to the development of obesity-associated insulin resistance in the context of consumption of a high-fat diet (HFD) in humans and rodents. Maternal diet is a major determinant of offspring health, and there is strong evidence that maternal HFD alters hypothalamic developmental programming and disrupts offspring energy homeostasis in rodents. In this study, we exposed pregnant and lactating C57BL/6JB female mice to either HFD, HFD with supplemented BCAA (HFD+BCAA), or standard diet (SC), and we studied offspring metabolic phenotypes. Both maternal HFD and HFD supplemented with BCAA had similar effect rendering the offspring metabolic imbalance and impairing their ability to cope with HFD when challenged during aging. The metabolic effects of HFD challenge were more profound in females, worsening female offspring ability to cope with an HFD challenge by activating hypothalamic inflammation in aging. Moreover, the sex differences in hypothalamic estrogen receptor α (ER-α) expression levels were lost in female offspring upon HFD challenge, supporting a link between ER-α levels and hypothalamic inflammation in offspring and highlighting the programming potential of hypothalamic inflammatory responses and maternal nutrition.

摘要

支链氨基酸(BCAA:亮氨酸、异亮氨酸和缬氨酸)在人类和啮齿动物摄入高脂肪饮食(HFD)的情况下,有助于肥胖相关的胰岛素抵抗的发展。母体饮食是后代健康的主要决定因素,有强有力的证据表明,母体 HFD 改变了下丘脑的发育编程,并破坏了啮齿动物后代的能量平衡。在这项研究中,我们使怀孕和哺乳期的 C57BL/6JB 雌性小鼠暴露于 HFD、HFD 补充 BCAA(HFD+BCAA)或标准饮食(SC)中,并研究了后代的代谢表型。母体 HFD 和补充 BCAA 的 HFD 都有相似的作用,使后代代谢失衡,并在衰老时受到 HFD 挑战时,损害其应对能力。HFD 挑战对雌性的代谢影响更为明显,通过在衰老时激活下丘脑炎症,使雌性后代应对 HFD 挑战的能力恶化。此外,在 HFD 挑战后,雌性后代下丘脑雌激素受体 α(ER-α)表达水平的性别差异丧失,这支持了后代下丘脑炎症与 ER-α 水平之间的联系,并强调了下丘脑炎症反应和母体营养的编程潜力。