The mammalian purine salvage pathway as an exploitable route for cerebral bioenergetic support after brain injury

嘌呤 核苷酸回收 嘌呤代谢 生物 腺苷 生物化学 腺嘌呤核苷酸 代谢途径 生物能学 核苷酸 肌苷 细胞生物学 海马结构 代谢物 核糖 线粒体 神经科学 基因
作者
Philipp Geßner,Jenni Lum,Bruno G. Frenguelli
出处
期刊:Neuropharmacology [Elsevier BV]
卷期号:224: 109370-109370 被引量:34
标识
DOI:10.1016/j.neuropharm.2022.109370
摘要

Purine-based molecules play ancient, fundamental, and evolutionarily-conserved roles across life on Earth, ranging from DNA and RNA, to the universal energy currency, ATP. In mammals, the two primary routes for the synthesis of the adenine nucleotides ATP, ADP and AMP, and, as a consequence, the major bioactive metabolite adenosine, are the de novo purine biosynthesis (DNPB) pathway, and the purine salvage pathway (PSP). Of the two, the PSP dominates in both the mammalian brain and heart. This is because the PSP utilizes the breakdown products of ATP, occasioned by the high energy demands of these organs, to rapidly regenerate adenine nucleotides. This resynthesis route, while efficient and energetically favourable, leaves these organs vulnerable to loss of salvageable metabolites, with the potential for protracted depletion of the means to synthesize ATP, and the ability to deploy neuro- and cardioprotective adenosine. Having previously shown that hippocampal cellular ATP and adenosine release can be increased by supplying substrates for the PSP (d-ribose and adenine), we now explore the expression of DNPB and PSP enzymes in hippocampal neurons and astrocytes based on available transcriptomic data. We find that key enzymes of the PSP are expressed at higher levels than those in the DNPB pathway, and that PSP enzymes are expressed at higher levels in neurons than in astrocytes. These data reflect the importance of the PSP in the mammalian brain and imply that pharmacological targeting of the PSP may be particularly beneficial to neurons at times of metabolic stress. This article is part of the Special Issue on 'Purinergic Signaling: 50 years'.
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