Differential G Protein-Coupled Estrogen Receptor-1 Regulation of Counter-Regulatory Transmitter Marker and 5'-AMP-Activated Protein Kinase Expression in Ventrolateral versus Dorsomedial Ventromedial Hypothalamic Nucleus.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-01-01 Epub Date: 2023-09-12 DOI:10.1159/000533627
Khaggeswar Bheemanapally, Karen P Briski
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Abstract

Introduction: The ventromedial hypothalamic nucleus (VMN) is an estrogen receptor (ER)-rich structure that regulates glucostasis. The role of nuclear but not membrane G protein-coupled ER-1 (GPER) in that function has been studied.

Methods: Gene silencing and laser-catapult microdissection/immunoblot tools were used to examine whether GPER regulates transmitter and energy sensor function in dorsomedial (VMNdm) and/or ventrolateral (VMNvl) VMN counter-regulatory nitrergic and γ-Aminobutyric acid (GABA) neurons.

Results: Intra-VMN GPER siRNA administration to euglycemic animals did not affect VMNdm or -vl nitrergic neuron nitric oxide synthase (nNOS), but upregulated (VMNdm) or lacked influence on (VMNvl) GABA nerve cell glutamate decarboxylase65/67 (GAD) protein. Insulin-induced hypoglycemia (IIH) caused GPER knockdown-reversible augmentation of nNOS, 5'-AMP-activated protein kinase (AMPK), and phospho-AMPK proteins in nitrergic neurons in both divisions. IIH had dissimilar effects on VMNvl (unchanged) versus VMNdm (increased) GABAergic neuron GAD levels, yet GPER knockdown affected these profiles. GPER siRNA prevented hypoglycemic upregulation of VMNvl and -dm GABA neuron AMPK without altering pAMPK expression.

Conclusions: Outcomes infer that GPER exerts differential control of VMNdm versus -vl GABA transmission during glucostasis and is required for hypoglycemic upregulated nitrergic (VMNdm and -vl) and GABA (VMNdm) signaling. Glycogen metabolism is reported to regulate VMN nNOS and GAD proteins. Data show that GPER limits VMNvl glycogen phosphorylase (GP) protein expression and glycogen buildup during euglycemia but mediates hypoglycemic augmentation of VMNvl GP protein and glycogen content; VMNdm glycogen mass is refractory to GPER control. GPER regulation of VMNvl glycogen metabolism infers that this receptor may govern local counter-regulatory transmission in part by astrocyte metabolic coupling.

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G蛋白偶联雌激素受体-1对反调节递质标记和5'-AMP-激活蛋白激酶在下丘脑外侧核与背内侧核表达的差异调控
简介下丘脑腹内侧核(VMN)是一个富含雌激素受体(ER)的结构,可调节葡萄糖稳态。研究了核G蛋白偶联ER-1(GPER)而非膜G蛋白偶联ER-1(GPER)在该功能中的作用:方法:使用基因沉默和激光弹弓显微切割/免疫印迹工具研究 GPER 是否调节背内侧(VMNdm)和/或腹外侧(VMNvl)VMN 反调节硝酸能和γ-氨基丁酸(GABA)神经元的递质和能量传感器功能:结果:在优血症动物体内注射VMN GPER siRNA不会影响VMNdm或-vl硝化神经元一氧化氮合酶(nNOS),但会上调(VMNdm)或不影响(VMNvl)GABA神经细胞谷氨酸脱羧酶65/67(GAD)蛋白。胰岛素诱导的低血糖症(IIH)导致两个分部的硝酸神经元中的 nNOS、5'-AMPK 和磷酸-AMPK 蛋白的 GPER 敲除-可逆性增强。IIH对VMNvl(不变)和VMNdm(增加)GABA能神经元GAD水平的影响不同,但GPER敲除会影响这些特征。GPER siRNA 阻止了低血糖对 VMNvl 和 -dm GABA 神经元 AMPK 的上调,但没有改变 pAMPK 的表达:结论:研究结果推断,GPER 在糖代谢过程中对 VMNdm 和 -vl GABA 传导进行不同的控制,并且是低血糖上调硝化甘油能(VMNdm 和 -vl)和 GABA(VMNdm)信号传导所必需的。据报道,糖原代谢可调节 VMN nNOS 和 GAD 蛋白。数据显示,GPER 限制了 VMNvl 糖原磷酸化酶(GP)蛋白的表达和优格血症期间的糖原积累,但介导了 VMNvl GP 蛋白和糖原含量的低血糖增加;VMNdm 糖原质量不受 GPER 控制。GPER 对 VMNvl 糖原代谢的调节推断,该受体可能部分通过星形胶质细胞代谢耦合来控制局部反调节传递。
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7.20
自引率
4.30%
发文量
567
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