Deciphering the Role of Klf10 in the Cerebellum.

Malek Kammoun, Lydie Nadal-Desbarats, Sandra Même, Aude Lafoux, Corinne Huchet, Géraldine Meyer-Dilhet, Julien Courchet, Frédéric Montigny, Frédéric Szeremeta, William Même, Vladimir Veksler, Jérôme Piquereau, Philippe Pouletaut, Malayannan Subramaniam, John R Hawse, Jean-Marc Constans, Sabine F Bensamoun
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Abstract

Recent studies have demonstrated a new role for Klf10, a Krüppel-like transcription factor, in skeletal muscle, specifically relating to mitochondrial function. Thus, it was of interest to analyze additional tissues that are highly reliant on optimal mitochondrial function such as the cerebellum and to decipher the role of Klf10 in the functional and structural properties of this brain region. In vivo (magnetic resonance imaging and localized spectroscopy, behavior analysis) and in vitro (histology, spectroscopy analysis, enzymatic activity) techniques were applied to comprehensively assess the cerebellum of wild type (WT) and Klf10 knockout (KO) mice. Histology analysis and assessment of locomotion revealed no significant difference in Klf10 KO mice. Diffusion and texture results obtained using MRI revealed structural changes in KO mice characterized as defects in the organization of axons. These modifications may be explained by differences in the levels of specific metabolites (myo-inositol, lactate) within the KO cerebellum. Loss of Klf10 expression also led to changes in mitochondrial activity as reflected by a significant increase in the activity of citrate synthase, complexes I and IV. In summary, this study has provided evidence that Klf10 plays an important role in energy production and mitochondrial function in the cerebellum.

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Abstract Image

Abstract Image

解读Klf10在小脑中的作用。
最近的研究表明Klf10(一种kr ppel样转录因子)在骨骼肌中的新作用,特别是与线粒体功能有关。因此,分析其他高度依赖最佳线粒体功能的组织,如小脑,并破译Klf10在该大脑区域的功能和结构特性中的作用,是很有意义的。采用体内(磁共振成像、定位光谱、行为分析)和体外(组织学、光谱分析、酶活性)技术对野生型(WT)和Klf10敲除(KO)小鼠小脑进行综合评价。组织学分析和运动评估显示Klf10 KO小鼠无显著差异。MRI获得的弥散和质地结果显示,KO小鼠的结构变化以轴突组织缺陷为特征。这些变化可能是由KO小脑内特定代谢物(肌醇、乳酸)水平的差异所解释的。Klf10的表达缺失也导致线粒体活性的变化,体现在柠檬酸合酶、复合物I和IV的活性显著增加。综上所述,本研究提供了Klf10在小脑能量产生和线粒体功能中发挥重要作用的证据。
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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