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In vivo neurochemical profiling of rat brain by 1H-[13C] NMR spectroscopy: cerebral energetics and glutamatergic/GABAergic neurotransmission.通过 1H-[13C]NMR 光谱对大鼠脑进行体内神经化学分析:脑能量代谢和谷氨酸能/GABA 能神经传递。
J Neurochem. 2010 Jan;112(1):24-33. doi: 10.1111/j.1471-4159.2009.06428.x. Epub 2009 Oct 10.
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Recurrent antecedent hypoglycemia alters neuronal oxidative metabolism in vivo.复发性前驱低血糖会改变体内神经元的氧化代谢。
Diabetes. 2009 Jun;58(6):1266-74. doi: 10.2337/db08-1664. Epub 2009 Mar 10.
3
Ketones suppress brain glucose consumption.酮类物质会抑制大脑对葡萄糖的消耗。
Adv Exp Med Biol. 2009;645:301-6. doi: 10.1007/978-0-387-85998-9_45.
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Determination of the glutamate-glutamine cycling flux using two-compartment dynamic metabolic modeling is sensitive to astroglial dilution.使用两室动态代谢模型测定谷氨酸-谷氨酰胺循环通量对星形胶质细胞稀释敏感。
J Cereb Blood Flow Metab. 2009 Jan;29(1):108-18. doi: 10.1038/jcbfm.2008.102. Epub 2008 Sep 3.
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Altered cerebral glucose and acetate metabolism in succinic semialdehyde dehydrogenase-deficient mice: evidence for glial dysfunction and reduced glutamate/glutamine cycling.琥珀酸半醛脱氢酶缺陷小鼠脑葡萄糖和乙酸代谢改变:胶质细胞功能障碍及谷氨酸/谷氨酰胺循环减少的证据
J Neurochem. 2007 Dec;103(5):2077-91. doi: 10.1111/j.1471-4159.2007.04887.x. Epub 2007 Sep 13.
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Increased brain monocarboxylic acid transport and utilization in type 1 diabetes.1型糖尿病患者大脑中一元羧酸转运和利用增加。
Diabetes. 2006 Apr;55(4):929-34. doi: 10.2337/diabetes.55.04.06.db05-1325.
7
Neuronal-glial interactions in rats fed a ketogenic diet.喂食生酮饮食的大鼠的神经元-神经胶质细胞相互作用
Neurochem Int. 2006 May-Jun;48(6-7):498-507. doi: 10.1016/j.neuint.2005.12.037. Epub 2006 Mar 20.
8
Global cerebral blood flow and metabolism during acute hyperketonemia in the awake and anesthetized rat.清醒和麻醉大鼠急性高酮血症期间的全脑血流与代谢
J Cereb Blood Flow Metab. 2006 Feb;26(2):170-80. doi: 10.1038/sj.jcbfm.9600177.
9
Response of brain amino acid metabolism to ketosis.大脑氨基酸代谢对酮症的反应。
Neurochem Int. 2005 Jul;47(1-2):119-28. doi: 10.1016/j.neuint.2005.04.014.
10
The contribution of GABA to glutamate/glutamine cycling and energy metabolism in the rat cortex in vivo.γ-氨基丁酸(GABA)对大鼠大脑皮质体内谷氨酸/谷氨酰胺循环及能量代谢的作用。
Proc Natl Acad Sci U S A. 2005 Apr 12;102(15):5588-93. doi: 10.1073/pnas.0501703102. Epub 2005 Apr 4.

在禁食麻醉大鼠体内高酮血症期间的皮质基底氧化。

Cortical substrate oxidation during hyperketonemia in the fasted anesthetized rat in vivo.

机构信息

Department of Diagnostic Radiology, Magnetic Resonance Research Center, Yale University School of Medicine, The Anylan Center, New Haven, Connecticut, USA.

出版信息

J Cereb Blood Flow Metab. 2011 Dec;31(12):2313-23. doi: 10.1038/jcbfm.2011.91. Epub 2011 Jul 6.

DOI:10.1038/jcbfm.2011.91
PMID:21731032
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3323194/
Abstract

Ketone bodies are important alternate brain fuels, but their capacity to replace glucose and support neural function is unclear. In this study, the contributions of ketone bodies and glucose to cerebral cortical metabolism were measured in vivo in halothane-anesthetized rats fasted for 36 hours (n=6) and receiving intravenous [2,4-(13)C(2)]-D-β-hydroxybutyrate (BHB). Time courses of (13)C-enriched brain amino acids (glutamate-C4, glutamine-C4, and glutamate and glutamine-C3) were measured at 9.4 Tesla using spatially localized (1)H-[(13)C]-nuclear magnetic resonance spectroscopy. Metabolic rates were estimated by fitting a constrained, two-compartment (neuron-astrocyte) metabolic model to the (13)C time-course data. We found that ketone body oxidation was substantial, accounting for 40% of total substrate oxidation (glucose plus ketone bodies) by neurons and astrocytes. D-β-Hydroxybutyrate was oxidized to a greater extent in neurons than in astrocytes (≈ 70:30), and followed a pattern closely similar to the metabolism of [1-(13)C]glucose reported in previous studies. Total neuronal tricarboxylic acid cycle (TCA) flux in hyperketonemic rats was similar to values reported for normal (nonketotic) anesthetized rats infused with [1-(13)C]glucose, but neuronal glucose oxidation was 40% to 50% lower, indicating that ketone bodies had compensated for the reduction in glucose use.

摘要

酮体是重要的大脑替代燃料,但它们替代葡萄糖并支持神经功能的能力尚不清楚。在这项研究中,我们在禁食 36 小时的氟烷麻醉大鼠(n=6)中测量了酮体和葡萄糖对大脑皮质代谢的贡献,并静脉内给予[2,4-(13)C(2)]-D-β-羟基丁酸(BHB)。使用空间定位(1)H-[(13)C]-NMR 光谱法在 9.4 Tesla 下测量(13)C 标记脑氨基酸(谷氨酸-C4、谷氨酰胺-C4、谷氨酸和谷氨酰胺-C3)的时间过程。通过将约束性、两室(神经元-星形胶质细胞)代谢模型拟合到(13)C 时间过程数据,估算代谢率。我们发现酮体氧化程度很高,占神经元和星形胶质细胞总底物氧化(葡萄糖加酮体)的 40%。D-β-羟基丁酸在神经元中的氧化程度大于星形胶质细胞(≈70:30),并且其代谢模式与先前研究中报告的[1-(13)C]葡萄糖的代谢模式非常相似。在高酮血症大鼠中,总神经元三羧酸循环(TCA)通量与先前报道的用[1-(13)C]葡萄糖输注的正常(非酮症)麻醉大鼠的值相似,但神经元葡萄糖氧化降低了 40%至 50%,表明酮体已补偿了葡萄糖利用的减少。