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A Nutrient-Sensing Transition at Birth Triggers Glucose-Responsive Insulin Secretion.出生时的营养感应转变触发葡萄糖响应性胰岛素分泌。
Cell Metab. 2020 May 5;31(5):1004-1016.e5. doi: 10.1016/j.cmet.2020.04.004.
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Congenital hyperinsulinism disorders: Genetic and clinical characteristics.先天性高胰岛素血症疾病:遗传和临床特征。
Am J Med Genet C Semin Med Genet. 2019 Dec;181(4):682-692. doi: 10.1002/ajmg.c.31737. Epub 2019 Aug 14.
3
Large-conductance Ca- and voltage-gated K channels form and break interactions with membrane lipids during each gating cycle.大电导钙和电压门控钾通道在每个门控循环中与膜脂质形成和打破相互作用。
Proc Natl Acad Sci U S A. 2019 Apr 23;116(17):8591-8596. doi: 10.1073/pnas.1901381116. Epub 2019 Apr 9.
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The Central Role of Glucokinase in Glucose Homeostasis: A Perspective 50 Years After Demonstrating the Presence of the Enzyme in Islets of Langerhans.葡萄糖激酶在葡萄糖稳态中的核心作用:自证实该酶存在于胰岛50年后的观点。
Front Physiol. 2019 Mar 6;10:148. doi: 10.3389/fphys.2019.00148. eCollection 2019.
5
Management and pregnancy outcomes of women with GCK-MODY enrolled in the US Monogenic Diabetes Registry.美国单基因糖尿病注册研究中 GCK-MODY 患者的管理与妊娠结局。
Acta Diabetol. 2019 Apr;56(4):405-411. doi: 10.1007/s00592-018-1267-z. Epub 2018 Dec 11.
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Human islets expressing HNF1A variant have defective β cell transcriptional regulatory networks.表达 HNF1A 变异体的人胰岛具有缺陷的β细胞转录调控网络。
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7
Synaptotagmin 4 Regulates Pancreatic β Cell Maturation by Modulating the Ca Sensitivity of Insulin Secretion Vesicles.突触结合蛋白 4 通过调节胰岛素分泌囊泡的钙敏感性来调节胰岛β细胞成熟。
Dev Cell. 2018 May 7;45(3):347-361.e5. doi: 10.1016/j.devcel.2018.03.013. Epub 2018 Apr 12.
8
Regulation of K Channel Trafficking in Pancreatic β-Cells by Protein Histidine Phosphorylation.蛋白组氨酸磷酸化调控胰腺β细胞钾通道运输
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9
Replication confers β cell immaturity.复制导致β细胞不成熟。
Nat Commun. 2018 Feb 2;9(1):485. doi: 10.1038/s41467-018-02939-0.
10
Pancreatic β-Cell Electrical Activity and Insulin Secretion: Of Mice and Men.胰腺β细胞电活动与胰岛素分泌:从小鼠到人类
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KATP 通道活性降低导致大鼠新生胰岛的胰岛素分泌低血糖阈值降低。

Decreased KATP Channel Activity Contributes to the Low Glucose Threshold for Insulin Secretion of Rat Neonatal Islets.

机构信息

Division of Endocrinology and Diabetes, The Children's Hospital of Philadelphia, Philadelphia, PA 19104, USA.

Biotech Research & Innovation Centre, University of Copenhagen, DK-2200 Copenhagen N, Denmark.

出版信息

Endocrinology. 2021 Sep 1;162(9). doi: 10.1210/endocr/bqab121.

DOI:10.1210/endocr/bqab121
PMID:34134142
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8276892/
Abstract

Transitional hypoglycemia in normal newborns occurs in the first 3 days of life and has clinical features consistent with hyperinsulinism. We found a lower threshold for glucose-stimulated insulin secretion from freshly isolated embryonic day (E) 22 rat islets, which persisted into the first postnatal days. The threshold reached the adult level by postnatal day (P) 14. Culturing P14 islets also decreased the glucose threshold. Freshly isolated P1 rat islets had a lower threshold for insulin secretion in response to 2-aminobicyclo-(2, 2, 1)-heptane-2-carboxylic acid, a nonmetabolizable leucine analog, and diminished insulin release in response to tolbutamide, an inhibitor of β-cell KATP channels. These findings suggested that decreased KATP channel function could be responsible for the lower glucose threshold for insulin secretion. Single-cell transcriptomic analysis did not reveal a lower expression of KATP subunit genes in E22 compared with P14 β cells. The investigation of electrophysiological characteristics of dispersed β cells showed that early neonatal and cultured cells had fewer functional KATP channels per unit membrane area. Our findings suggest that decreased surface density of KATP channels may contribute to the observed differences in glucose threshold for insulin release.

摘要

正常新生儿在生命的头 3 天会出现过渡性低血糖,其临床特征与胰岛素过多症一致。我们发现,从新鲜分离的胚胎第 22 天(E)大鼠胰岛中,葡萄糖刺激的胰岛素分泌的阈值较低,这种情况一直持续到出生后的第 1 天。到出生后第 14 天,阈值达到成年水平。培养第 14 天的胰岛也降低了葡萄糖的阈值。新鲜分离的 P1 大鼠胰岛对 2-氨基双环[2.2.1]-庚烷-2-羧酸(一种不可代谢的亮氨酸类似物)的胰岛素分泌的阈值较低,对托吡酯(β细胞 KATP 通道抑制剂)的胰岛素释放减少。这些发现表明,KATP 通道功能降低可能是胰岛素分泌葡萄糖阈值降低的原因。单细胞转录组分析并未显示 E22 期β 细胞中 KATP 亚基基因的表达低于 P14 期。对分散β细胞电生理特性的研究表明,早期新生儿和培养的细胞每单位膜面积的功能性 KATP 通道较少。我们的研究结果表明,KATP 通道的表面密度降低可能导致观察到的胰岛素释放葡萄糖阈值的差异。