肌管生长与癌症样代谢重编程相关，并受磷酸甘油酸脱氢酶的限制。

Myotube growth is associated with cancer-like metabolic reprogramming and is limited by phosphoglycerate dehydrogenase.

作者信息

Stadhouders Lian E M, Smith Jonathon A B, Gabriel Brendan M, Verbrugge Sander A J, Hammersen Tim D, Kolijn Detmar, Vogel Ilse S P, Mohamed Abdalla D, de Wit Gerard M J, Offringa Carla, Hoogaars Willem M H, Gehlert Sebastian, Wackerhage Henning, Jaspers Richard T

机构信息

Laboratory for Myology, Department of Human Movement Sciences, Faculty of Behavioural and Movement Sciences, Vrije Universiteit Amsterdam, Amsterdam Movement Sciences, De Boelelaan 1108, 1081 HZ, Amsterdam, the Netherlands.

School of Medicine, Medical Sciences and Nutrition, University of Aberdeen, Foresterhill, Aberdeen, AB25 2ZD, UK; Department of Physiology and Pharmacology (FYFA), Group of Integrative Physiology, Karolinska Institutet, Stockholm, Sweden.

出版信息

Exp Cell Res. 2023 Dec 15;433(2):113820. doi: 10.1016/j.yexcr.2023.113820. Epub 2023 Oct 23.

DOI:10.1016/j.yexcr.2023.113820

PMID:37879549

Abstract

The Warburg effect links growth and glycolysis in cancer. A key purpose of the Warburg effect is to generate glycolytic intermediates for anabolic reactions, such as nucleotides → RNA/DNA and amino acids → protein synthesis. The aim of this study was to investigate whether a similar 'glycolysis-for-anabolism' metabolic reprogramming also occurs in hypertrophying skeletal muscle. To interrogate this, we first induced C2C12 myotube hypertrophy with IGF-1. We then added C glucose to the differentiation medium and measured radioactivity in isolated protein and RNA to establish whether C had entered anabolism. We found that especially protein became radioactive, suggesting a glucose → glycolytic intermediates → non-essential amino acid(s) → protein series of reactions, the rate of which was increased by IGF-1. Next, to investigate the importance of glycolytic flux and non-essential amino acid synthesis for myotube hypertrophy, we exposed C2C12 and primary mouse myotubes to the glycolysis inhibitor 2-Deoxy-d-glucose (2DG). We found that inhibiting glycolysis lowered C2C12 and primary myotube size. Similarly, siRNA silencing of PHGDH, the key enzyme of the serine biosynthesis pathway, decreased C2C12 and primary myotube size; whereas retroviral PHGDH overexpression increased C2C12 myotube size. Together these results suggest that glycolysis is important for hypertrophying myotubes, which reprogram their metabolism to facilitate anabolism, similar to cancer cells.

摘要

瓦伯格效应将癌症中的生长与糖酵解联系起来。瓦伯格效应的一个关键目的是产生用于合成代谢反应的糖酵解中间体，例如核苷酸→RNA/DNA以及氨基酸→蛋白质合成。本研究的目的是调查在骨骼肌肥大过程中是否也会发生类似的“糖酵解促进合成代谢”的代谢重编程。为了探究这一点，我们首先用胰岛素样生长因子-1（IGF-1）诱导C2C12肌管肥大。然后我们在分化培养基中添加¹³C葡萄糖，并测量分离出的蛋白质和RNA中的放射性，以确定¹³C是否进入了合成代谢。我们发现特别是蛋白质变得具有放射性，这表明存在葡萄糖→糖酵解中间体→非必需氨基酸→蛋白质的一系列反应，IGF-1可提高该反应的速率。接下来，为了研究糖酵解通量和非必需氨基酸合成对肌管肥大的重要性，我们将C2C12和原代小鼠肌管暴露于糖酵解抑制剂2-脱氧-D-葡萄糖（2DG）。我们发现抑制糖酵解会降低C2C12和原代肌管的大小。同样，丝氨酸生物合成途径的关键酶磷酸甘油酸脱氢酶（PHGDH）的siRNA沉默降低了C2C12和原代肌管的大小；而逆转录病毒介导的PHGDH过表达增加了C2C12肌管的大小。这些结果共同表明，糖酵解对肥大的肌管很重要，肌管会重新编程其代谢以促进合成代谢，这与癌细胞类似。

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肌管生长与癌症样代谢重编程相关，并受磷酸甘油酸脱氢酶的限制。

Myotube growth is associated with cancer-like metabolic reprogramming and is limited by phosphoglycerate dehydrogenase.

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