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Guide to Receptors and Channels (GRAC), 4th Edition.《受体与通道指南》(第4版)
Br J Pharmacol. 2009 Nov;158 Suppl 1(Suppl 1):S1-254. doi: 10.1111/j.1476-5381.2009.00499.x.
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beta1-Adrenoceptor distribution in the rat brain: an immunohistochemical study.大鼠脑中β1肾上腺素能受体的分布:一项免疫组织化学研究。
Neurosci Lett. 2009 Jul 17;458(2):84-8. doi: 10.1016/j.neulet.2009.04.023. Epub 2009 Apr 15.
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Different properties of P2X(7) receptor in hippocampal and cortical astrocytes.P2X(7) 受体在海马和皮质星形胶质细胞中的不同特性。
Purinergic Signal. 2009 Jun;5(2):233-40. doi: 10.1007/s11302-009-9137-3. Epub 2009 Mar 12.
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Stereochemistry of an agonist determines coupling preference of beta2-adrenoceptor to different G proteins in cardiomyocytes.激动剂的立体化学决定了β2-肾上腺素能受体与心肌细胞中不同G蛋白的偶联偏好。
Mol Pharmacol. 2009 Jan;75(1):158-65. doi: 10.1124/mol.108.051078. Epub 2008 Oct 7.
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The beta3-adrenoceptor agonist 4-[[(Hexylamino)carbonyl]amino]-N-[4-[2-[[(2S)-2-hydroxy-3-(4-hydroxyphenoxy)propyl]amino]ethyl]-phenyl]-benzenesulfonamide (L755507) and antagonist (S)-N-[4-[2-[[3-[3-(acetamidomethyl)phenoxy]-2-hydroxypropyl]amino]-ethyl]phenyl]benzenesulfonamide (L748337) activate different signaling pathways in Chinese hamster ovary-K1 cells stably expressing the human beta3-adrenoceptor.β3-肾上腺素能受体激动剂4-[[(己基氨基)羰基]氨基]-N-[4-[2-[[(2S)-2-羟基-3-(4-羟基苯氧基)丙基]氨基]乙基]苯基]-苯磺酰胺(L755507)和拮抗剂(S)-N-[4-[2-[[3-[3-(乙酰氨基甲基)苯氧基]-2-羟基丙基]氨基]乙基]苯基]苯磺酰胺(L748337)在稳定表达人β3-肾上腺素能受体的中国仓鼠卵巢-K1细胞中激活不同的信号通路。
Mol Pharmacol. 2008 Nov;74(5):1417-28. doi: 10.1124/mol.108.046979. Epub 2008 Aug 6.
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Energy metabolism and memory processing: role of glucose transport and glycogen in responses to adrenoceptor activation in the chicken.能量代谢与记忆加工:葡萄糖转运和糖原在鸡对肾上腺素能受体激活反应中的作用
Brain Res Bull. 2008 Jun 15;76(3):224-34. doi: 10.1016/j.brainresbull.2008.02.019. Epub 2008 Mar 6.
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Astrocytic involvement in learning and memory consolidation.星形胶质细胞在学习与记忆巩固中的作用。
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Memory processing in the avian hippocampus involves interactions between beta-adrenoceptors, glutamate receptors, and metabolism.鸟类海马体中的记忆处理涉及β-肾上腺素能受体、谷氨酸受体和新陈代谢之间的相互作用。
Neuropsychopharmacology. 2008 Nov;33(12):2831-46. doi: 10.1038/npp.2008.5. Epub 2008 Feb 6.
9
Role of beta-adrenoceptors in memory consolidation: beta3-adrenoceptors act on glucose uptake and beta2-adrenoceptors on glycogenolysis.β-肾上腺素能受体在记忆巩固中的作用:β3-肾上腺素能受体作用于葡萄糖摄取,β2-肾上腺素能受体作用于糖原分解。
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Functional domains of the mouse beta(3)-adrenoceptor associated with differential G-protein coupling.
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β-肾上腺素受体在星形胶质细胞葡萄糖摄取中的作用:使用β-肾上腺素受体基因敲除小鼠的研究。

Role of β-adrenoceptors in glucose uptake in astrocytes using β-adrenoceptor knockout mice.

机构信息

Department of Pharmacology, Monash University, Clayton, Victoria, Australia.

出版信息

Br J Pharmacol. 2011 Apr;162(8):1700-15. doi: 10.1111/j.1476-5381.2010.01153.x.

DOI:10.1111/j.1476-5381.2010.01153.x
PMID:21138422
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3081115/
Abstract

BACKGROUND AND PURPOSE

β(1) -, β(2) - and β(3) -adrenoceptors determined by functional, binding and reverse transcription polymerase chain reaction (RT-PCR) studies are present in chick astrocytes and activation of β(2) - or β(3) -adrenoceptors increase glucose uptake. The aims of the present study are to identify which β-adrenoceptor subtypes are present in mouse astrocytes, the signal transduction mechanisms involved and whether β-adrenoceptor stimulation regulates glucose uptake.

EXPERIMENTAL APPROACH

Astrocytes were prepared from four mouse strains: FVB/N, DBA/1 crossed with C57BL/6J, β(3) -adrenoceptor knockout and β(1) β(2) -adrenoceptor knockout mice. RT-PCR and radioligand binding studies were used to determine β-adrenoceptor expression. Glucose uptake and cAMP were assayed to elucidate the signalling pathways involved.

KEY RESULTS

mRNAs for all three β-adrenoceptors were identified in astrocytes from wild-type mice. Radioligand binding studies identified that β(1) - and β(3) -adrenoceptors were predominant. cAMP studies showed that β(1) - and β(2) -adrenoceptors coupled to G(s) whereas β(3) -adrenoceptors coupled to both G(s) and G(i) . However, activation of any of the three β-adrenoceptors increased glucose uptake in mouse astrocytes. Interestingly, there was no functional compensation for receptor subtype loss in knockout animals.

CONCLUSIONS AND IMPLICATIONS

This study demonstrates that although β(1) -adrenoceptors are the predominant β-adrenoceptor in mouse astrocytes and are primarily responsible for cAMP production in response to β-adrenoceptor stimulation, β(3) -adrenoceptors are also present in mouse astrocytes and activation of β(2) - and β(3) -adrenoceptors increases glucose uptake in mouse astrocytes.

摘要

背景与目的

通过功能、结合和逆转录聚合酶链反应(RT-PCR)研究确定,β(1) -、β(2) -和β(3) -肾上腺素受体存在于鸡星型胶质细胞中,激活β(2) -或β(3) -肾上腺素受体可增加葡萄糖摄取。本研究的目的是确定β-肾上腺素受体亚型在小鼠星型胶质细胞中的存在情况,所涉及的信号转导机制以及β-肾上腺素受体刺激是否调节葡萄糖摄取。

实验方法

从 FVB/N、DBA/1 与 C57BL/6J 杂交、β(3) -肾上腺素受体敲除和β(1) β(2) -肾上腺素受体敲除小鼠中制备星型胶质细胞。使用 RT-PCR 和放射性配体结合研究来确定β-肾上腺素受体表达。测定葡萄糖摄取和 cAMP 以阐明所涉及的信号通路。

主要结果

在野生型小鼠的星型胶质细胞中鉴定出所有三种β-肾上腺素受体的 mRNA。放射性配体结合研究表明,β(1) -和β(3) -肾上腺素受体占优势。cAMP 研究表明,β(1) -和β(2) -肾上腺素受体与 G(s)偶联,而β(3) -肾上腺素受体与 G(s)和 G(i) 偶联。然而,激活三种β-肾上腺素受体中的任何一种都能增加小鼠星型胶质细胞中的葡萄糖摄取。有趣的是,在敲除动物中,没有受体亚型缺失的功能补偿。

结论和意义

本研究表明,尽管β(1) -肾上腺素受体是小鼠星型胶质细胞中主要的β-肾上腺素受体,并且主要负责β-肾上腺素受体刺激后 cAMP 的产生,但β(3) -肾上腺素受体也存在于小鼠星型胶质细胞中,激活β(2) -和β(3) -肾上腺素受体可增加小鼠星型胶质细胞中的葡萄糖摄取。