Pro-BDNF, but Not Mature BDNF, Is Expressed in Human Skeletal Muscle: Implications for Exercise-Induced Neuroplasticity

Function Pub Date : 2024-01-27 DOI:10.1093/function/zqae005

Sebastian Edman, Oscar Horwath, Thibaux Van der Stede, Sarah Joan Blackwood, Isabel Moberg, Henrik Strömlind, Fabian Nordström, M. Ekblom, A. Katz, W. Apró, Marcus Moberg

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Abstract

Exercise promotes brain plasticity partly by stimulating increases in mature brain-derived neurotrophic factor (mBDNF), but the role of the pro-BDNF isoform in the regulation of BDNF metabolism in humans is unknown. We quantified the expression of pro-BDNF and mBDNF in human skeletal muscle and plasma at rest, after acute exercise (+/- lactate infusion), and after fasting. Pro-BDNF and mBDNF were analyzed with immunoblotting, ELISA, immunohistochemistry, and qPCR. Pro-BDNF was consistently and clearly detected in skeletal muscle (40-250 pg × mg−1 dry muscle), whereas mBDNF was not. All methods showed a 4-fold greater pro-BDNF expression in type I muscle fibers compared to type II fibers. Exercise resulted in elevated plasma levels of mBDNF (55%) and pro-BDNF (20%), as well as muscle levels of pro-BDNF (∼10%, all P < 0.05). Lactate infusion during exercise-induced a significantly greater increase in plasma mBDNF (115%, P < 0.05) compared to control (saline infusion), with no effect on pro-BDNF levels in plasma or muscle. A 3-day fast resulted in a small increase in plasma pro-BDNF (∼10%, P < 0.05), with no effect on mBDNF. Pro-BDNF is highly expressed in human skeletal muscle, particularly in type I fibers, and is increased after exercise. While exercising with higher lactate augmented levels of plasma mBDNF, exercise-mediated increases in circulating mBDNF likely derives, partly, from release and cleavage of pro-BDNF from skeletal muscle, and partly from neural and other tissues. These findings have implications for pre-clinical and clinical work related to a wide range of neurological disorders such as Alzheimer's, clinical depression, and Amyotrophic lateral sclerosis.

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Pro-BDNF 而非成熟 BDNF 在人类骨骼肌中表达：对运动诱导的神经可塑性的影响

运动促进大脑可塑性的部分原因是刺激成熟脑源性神经营养因子（mBDNF）的增加，但原BDNF异构体在调节人体BDNF代谢中的作用尚不清楚。我们对静息状态、急性运动后（+/-乳酸盐输注）和禁食后人体骨骼肌和血浆中原-BDNF 和 mBDNF 的表达进行了量化。通过免疫印迹、酶联免疫吸附、免疫组织化学和 qPCR 对 Pro-BDNF 和 mBDNF 进行了分析。在骨骼肌（40-250 pg × mg-1 干肌）中持续、清晰地检测到前-BDNF，而 mBDNF 则没有检测到。所有方法都显示，与 II 型肌纤维相比，I 型肌纤维中 Pro-BDNF 的表达量高出 4 倍。运动导致血浆中 mBDNF 水平升高（55%），pro-BDNF 水平升高（20%），肌肉中 pro-BDNF 水平也升高（10%，所有 P <0.05）。与对照组（输注生理盐水）相比，运动期间输注乳酸会导致血浆 mBDNF 明显增加（115%，P＜0.05），但对血浆或肌肉中的原-BDNF 水平没有影响。禁食 3 天会导致血浆中 pro-BDNF 的少量增加（10%，P < 0.05），但对 mBDNF 没有影响。Pro-BDNF 在人体骨骼肌中高度表达，尤其是在 I 型纤维中，并在运动后增加。虽然运动时乳酸较高会增加血浆中 mBDNF 的水平，但运动介导的循环中 mBDNF 的增加可能部分来自骨骼肌中原-BDNF 的释放和裂解，部分来自神经和其他组织。这些发现对阿尔茨海默氏症、临床抑郁症和肌萎缩侧索硬化症等多种神经系统疾病的临床前和临床工作具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Function

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