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本文引用的文献

1
Impact of chorionic somatomammotropin RNA interference on uterine blood flow and placental glucose uptake in the absence of intrauterine growth restriction.绒毛膜生长激素 RNA 干扰对无宫内生长受限情况下子宫血流和胎盘葡萄糖摄取的影响。
Am J Physiol Regul Integr Comp Physiol. 2021 Feb 1;320(2):R138-R148. doi: 10.1152/ajpregu.00223.2020. Epub 2020 Nov 4.
2
Placental Lactogen as a Marker of Maternal Obesity, Diabetes, and Fetal Growth Abnormalities: Current Knowledge and Clinical Perspectives.胎盘催乳素作为母体肥胖、糖尿病和胎儿生长异常的标志物:当前知识与临床展望
J Clin Med. 2020 Apr 16;9(4):1142. doi: 10.3390/jcm9041142.
3
Sustained hypoxemia in late gestation potentiates hepatic gluconeogenic gene expression but does not activate glucose production in the ovine fetus.妊娠晚期持续低氧血症增强胎肝糖异生基因表达,但不能激活胎儿肝葡萄糖生成。
Am J Physiol Endocrinol Metab. 2019 Jul 1;317(1):E1-E10. doi: 10.1152/ajpendo.00069.2019. Epub 2019 Apr 9.
4
The first pediatric case of glucagon receptor defect due to biallelic mutations in is identified by newborn screening of elevated arginine.首例因双等位基因突变导致胰高血糖素受体缺陷的儿科病例通过新生儿筛查血精氨酸升高得以确诊。
Mol Genet Metab Rep. 2018 Oct 2;17:46-52. doi: 10.1016/j.ymgmr.2018.09.006. eCollection 2018 Dec.
5
Prolonged amino acid infusion into intrauterine growth-restricted fetal sheep increases leucine oxidation rates.宫内生长受限胎儿羊持续输注氨基酸可增加亮氨酸氧化率。
Am J Physiol Endocrinol Metab. 2018 Dec 1;315(6):E1143-E1153. doi: 10.1152/ajpendo.00128.2018. Epub 2018 Sep 11.
6
Chorionic somatomammotropin impacts early fetal growth and placental gene expression.绒毛膜生长催乳素影响早期胎儿生长和胎盘基因表达。
J Endocrinol. 2018 Jun;237(3):301-310. doi: 10.1530/JOE-18-0093. Epub 2018 Apr 16.
7
Regulation of amino acid metabolism and α-cell proliferation by glucagon.胰高血糖素对氨基酸代谢和α细胞增殖的调节。
J Diabetes Investig. 2018 Jan 3;9(3):464-72. doi: 10.1111/jdi.12797.
8
Skeletal muscle protein accretion rates and hindlimb growth are reduced in late gestation intrauterine growth-restricted fetal sheep.宫内生长受限胎儿羊在妊娠晚期的骨骼肌蛋白合成率和后肢生长减少。
J Physiol. 2018 Jan 1;596(1):67-82. doi: 10.1113/JP275230. Epub 2017 Oct 26.
9
Regulation of Placental Amino Acid Transport and Fetal Growth.胎盘氨基酸转运与胎儿生长的调节
Prog Mol Biol Transl Sci. 2017;145:217-251. doi: 10.1016/bs.pmbts.2016.12.008. Epub 2017 Jan 16.
10
Glucagon and Amino Acids Are Linked in a Mutual Feedback Cycle: The Liver-α-Cell Axis.胰高血糖素与氨基酸在相互反馈循环中相互关联:肝脏-α细胞轴。
Diabetes. 2017 Feb;66(2):235-240. doi: 10.2337/db16-0994.

妊娠晚期胎儿高胰高血糖素血症会损害胎盘功能,导致胎儿蛋白质蓄积减少和生长发育迟缓。

Late gestation fetal hyperglucagonaemia impairs placental function and results in diminished fetal protein accretion and decreased fetal growth.

机构信息

Wake Forest University Health Sciences, Winston-Salem, NC, 27157, USA.

University of Colorado Anschutz Medical Campus, Aurora, CO, USA.

出版信息

J Physiol. 2021 Jul;599(13):3403-3427. doi: 10.1113/JP281288. Epub 2021 May 10.

DOI:10.1113/JP281288
PMID:33878802
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8249343/
Abstract

KEY POINTS

Fetal glucagon concentrations are elevated in the setting of placental insufficiency, hypoxia and elevated stress hormones. Chronically elevated glucagon concentrations in the adult result in profound decreases in amino acid concentrations and lean body mass. Experimental elevation of fetal glucagon concentrations in a late-gestation pregnant sheep results in lower fetal amino acid concentrations, lower protein accretion and lower fetal weight, in addition to decreased placental function. This study demonstrates a negative effect of glucagon on fetal protein accretion and growth, and also provides the first example of a fetal hormone that negatively regulates placental nutrient transport and blood flow.

ABSTRACT

Fetal glucagon concentrations are elevated in the setting of placental insufficiency and fetal stress. Postnatal studies have demonstrated the importance of glucagon in amino acid metabolism, and limited fetal studies have suggested that glucagon inhibits umbilical uptake of certain amino acids. We hypothesized that chronic fetal hyperglucagonaemia would decrease amino acid transfer and increase amino acid oxidation by the fetus. Late gestation singleton fetal sheep received a direct intravenous infusion of glucagon (GCG; 5 or 50 ng/kg/min; n = 7 and 5, respectively) or a vehicle control (n = 10) for 8-10 days. Fetal and maternal nutrient concentrations, uterine and umbilical blood flows, fetal leucine flux, nutrient uptake rates, placental secretion of chorionic somatomammotropin (CSH), and targeted placental gene expression were measured. GCG fetuses had 13% lower fetal weight compared to controls (P = 0.0239) and >28% lower concentrations of 16 out of 21 amino acids (P < 0.02). Additionally, protein synthesis was 49% lower (P = 0.0005), and protein accretion was 92% lower in GCG fetuses (P = 0.0006). Uterine blood flow was 33% lower in ewes with GCG fetuses (P = 0.0154), while umbilical blood flow was similar. Fetal hyperglucagonaemia lowered uterine uptake of 10 amino acids by >48% (P < 0.05) and umbilical uptake of seven amino acids by >29% (P < 0.04). Placental secretion of CSH into maternal circulation was reduced by 80% compared to controls (P = 0.0080). This study demonstrates a negative effect of glucagon on fetal protein accretion and growth. It also demonstrates that glucagon, a hormone of fetal origin, negatively regulates maternal placental nutrient transport function, placental CSH production and uterine blood flow.

摘要

要点

胎儿在胎盘功能不全、缺氧和应激激素升高的情况下,其胰高血糖素浓度升高。在成年期,慢性升高的胰高血糖素浓度会导致氨基酸浓度和瘦体重显著降低。在妊娠晚期绵羊胎儿中,实验性地升高胰高血糖素浓度会导致胎儿氨基酸浓度降低、蛋白质合成减少和胎儿体重降低,同时还会降低胎盘功能。这项研究表明,胰高血糖素对胎儿蛋白质合成和生长有负面影响,同时也提供了第一个胎儿激素负调节胎盘营养转运和血流的例子。

摘要

胎儿在胎盘功能不全和胎儿应激的情况下,胰高血糖素浓度升高。产后研究表明胰高血糖素在氨基酸代谢中很重要,有限的胎儿研究表明胰高血糖素抑制胎儿对某些氨基酸的脐静脉摄取。我们假设慢性胎儿高胰高血糖素血症会降低氨基酸转运并增加胎儿的氨基酸氧化。在妊娠晚期,单胎胎儿绵羊接受胰高血糖素(GCG;5 或 50ng/kg/min;n=7 和 5,分别)或载体对照(n=10)的直接静脉输注 8-10 天。测量胎儿和母体营养浓度、子宫和脐血流、胎儿亮氨酸通量、营养摄取率、胎盘分泌的绒毛膜生长激素(CSH)以及靶向胎盘基因表达。与对照组相比,GCG 胎儿的胎儿体重低 13%(P=0.0239),21 种氨基酸中有 16 种的浓度低>28%(P<0.02)。此外,GCG 胎儿的蛋白质合成降低了 49%(P=0.0005),蛋白质合成降低了 92%(P=0.0006)。GCG 胎儿的子宫血流降低了 33%(P=0.0154),而脐血流相似。与对照组相比,GCG 胎儿的胎盘分泌 CSH 进入母体循环减少了 80%(P=0.0080)。这项研究表明,胰高血糖素对胎儿蛋白质合成和生长有负面影响。它还表明,胰高血糖素,一种胎儿来源的激素,负调节母体胎盘营养转运功能、胎盘 CSH 产生和子宫血流。