The role of pyruvate-induced enhancement of oxygen metabolism in extracellular purinergic signaling in the post-cardiac arrest rat model.

IF 3 4区 医学 Q2 NEUROSCIENCES
Purinergic Signalling Pub Date : 2024-08-01 Epub Date: 2023-07-29 DOI:10.1007/s11302-023-09958-7
Koichiro Shinozaki, Vanessa Wong, Tomoaki Aoki, Kei Hayashida, Ryosuke Takegawa, Yusuke Endo, Harshal Nandurkar, Betty Diamond, Simon C Robson, Lance B Becker
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Abstract

Purine nucleotide adenosine triphosphate (ATP) is a source of intracellular energy maintained by mitochondrial oxidative phosphorylation. However, when released from ischemic cells into the extracellular space, they act as death-signaling molecules (eATP). Despite there being potential benefit in using pyruvate to enhance mitochondria by inducing a highly oxidative metabolic state, its association with eATP levels is still poorly understood. Therefore, while we hypothesized that pyruvate could beneficially increase intracellular ATP with the enhancement of mitochondrial function after cardiac arrest (CA), our main focus was whether a proportion of the raised intracellular ATP would detrimentally leak out into the extracellular space. As indicated by the increased levels in systemic oxygen consumption, intravenous administrations of bolus (500 mg/kg) and continuous infusion (1000 mg/kg/h) of pyruvate successfully increased oxygen metabolism in post 10-min CA rats. Plasma ATP levels increased significantly from 67 ± 11 nM before CA to 227 ± 103 nM 2 h after the resuscitation; however, pyruvate administration did not affect post-CA ATP levels. Notably, pyruvate improved post-CA cardiac contraction and acidemia (low pH). We also found that pyruvate increased systemic CO2 production post-CA. These data support that pyruvate has therapeutic potential for improving CA outcomes by enhancing oxygen and energy metabolism in the brain and heart and attenuating intracellular hydrogen ion disorders, but does not exacerbate the death-signaling of eATP in the blood.

Abstract Image

在心脏骤停后大鼠模型中,丙酮酸诱导的氧代谢增强在细胞外嘌呤能信号传导中的作用。
嘌呤核苷酸三磷酸腺苷(ATP)是由线粒体氧化磷酸化维持的细胞内能量来源。然而,当它们从缺血细胞释放到细胞外空间时,就会成为死亡信号分子(eATP)。尽管利用丙酮酸诱导高度氧化代谢状态来增强线粒体有潜在益处,但人们对丙酮酸与 eATP 水平的关系仍知之甚少。因此,尽管我们假设丙酮酸可在心脏骤停(CA)后通过增强线粒体功能而有益地增加细胞内 ATP,但我们主要关注的是增加的细胞内 ATP 是否会有一部分有害地渗漏到细胞外空间。全身耗氧量的增加表明,静脉注射丙酮酸(500 毫克/千克)和持续输注(1000 毫克/千克/小时)成功地提高了 10 分钟 CA 后大鼠的氧代谢。血浆 ATP 水平从 CA 前的 67 ± 11 nM 显著增加到复苏后 2 小时的 227 ± 103 nM;然而,丙酮酸的施用并不影响 CA 后的 ATP 水平。值得注意的是,丙酮酸改善了CA后的心脏收缩和酸血症(低pH值)。我们还发现,丙酮酸可增加动脉粥样硬化后全身二氧化碳的产生。这些数据证明,丙酮酸盐具有治疗潜力,可通过增强大脑和心脏的氧和能量代谢以及减轻细胞内氢离子紊乱来改善 CA 的预后,但不会加剧血液中 eATP 的死亡信号传导。
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来源期刊
Purinergic Signalling
Purinergic Signalling 医学-神经科学
CiteScore
6.60
自引率
17.10%
发文量
75
审稿时长
6-12 weeks
期刊介绍: Nucleotides and nucleosides are primitive biological molecules that were utilized early in evolution both as intracellular energy sources and as extracellular signalling molecules. ATP was first identified as a neurotransmitter and later as a co-transmitter with all the established neurotransmitters in both peripheral and central nervous systems. Four subtypes of P1 (adenosine) receptors, 7 subtypes of P2X ion channel receptors and 8 subtypes of P2Y G protein-coupled receptors have currently been identified. Since P2 receptors were first cloned in the early 1990’s, there is clear evidence for the widespread distribution of both P1 and P2 receptor subtypes in neuronal and non-neuronal cells, including glial, immune, bone, muscle, endothelial, epithelial and endocrine cells.
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