Glycolysis: A multifaceted metabolic pathway and signalling hub.

IF 4 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Biological Chemistry Pub Date : 2024-10-21 DOI:10.1016/j.jbc.2024.107906

Sarah J Kierans,Cormac T Taylor

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Abstract

Glycolysis is a highly conserved metabolic pathway responsible for the anaerobic production of adenosine triphosphate (ATP) from the breakdown of glucose molecules. While serving as a primary metabolic pathway in prokaryotes, glycolysis is also utilised by respiring eukaryotic cells, providing pyruvate to fuel oxidative metabolism. Furthermore, glycolysis is the primary source of ATP production in multiple cellular states (e.g. hypoxia) and is particularly important in maintaining bioenergetic homeostasis in the most abundant cell type in the human body, the erythrocyte. Beyond its role in ATP production, glycolysis also functions as a signalling hub, producing several metabolic intermediates which serve roles in both signalling and metabolic processes. These signals emanating from the glycolytic pathway can profoundly impact cell function, phenotype and fate, and have previously been overlooked. In this review, we will discuss the role of the glycolytic pathway as a source of signalling molecules in eukaryotic cells, emphasising the newfound recognition of glycolysis' multifaceted nature and its importance in maintaining cellular homeostasis, beyond its traditional role in ATP synthesis.

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糖酵解：多方面的代谢途径和信号枢纽

糖酵解是一种高度保守的代谢途径，负责从葡萄糖分子的分解中无氧产生三磷酸腺苷（ATP）。糖酵解是原核生物的主要代谢途径，真核呼吸细胞也利用糖酵解提供丙酮酸，为氧化代谢提供燃料。此外，在多种细胞状态（如缺氧）下，糖酵解是产生 ATP 的主要来源，对于维持人体内最丰富的细胞类型--红细胞的生物能平衡尤为重要。除了在产生 ATP 方面的作用外，糖酵解还发挥着信号枢纽的作用，产生多种代谢中间产物，在信号传递和新陈代谢过程中发挥作用。这些来自糖酵解途径的信号可对细胞功能、表型和命运产生深远影响，但以前却被忽视了。在这篇综述中，我们将讨论糖酵解途径作为真核细胞信号分子源的作用，强调人们对糖酵解多面性的新认识，以及糖酵解在维持细胞稳态方面的重要性，而不仅仅是其在 ATP 合成中的传统作用。

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来源期刊

Journal of Biological Chemistry Biochemistry, Genetics and Molecular Biology-Biochemistry

自引率

4.20%

发文量

1233

期刊介绍： The Journal of Biological Chemistry welcomes high-quality science that seeks to elucidate the molecular and cellular basis of biological processes. Papers published in JBC can therefore fall under the umbrellas of not only biological chemistry, chemical biology, or biochemistry, but also allied disciplines such as biophysics, systems biology, RNA biology, immunology, microbiology, neurobiology, epigenetics, computational biology, ’omics, and many more. The outcome of our focus on papers that contribute novel and important mechanistic insights, rather than on a particular topic area, is that JBC is truly a melting pot for scientists across disciplines. In addition, JBC welcomes papers that describe methods that will help scientists push their biochemical inquiries forward and resources that will be of use to the research community.