脆性 X 综合征 Fmr1 基因敲除小鼠模型大脑皮层中线粒体生物能量异常。

Aberrant mitochondrial bioenergetics in the cerebral cortex of the Fmr1 knockout mouse model of fragile X syndrome.

机构信息

Institute for Biomedical Research and Innovation (IRIB), National Research Council (CNR), Via Paolo Gaifami 18, I-95126 Catania, Italy.

Institute of Biomembranes, Bioenergetics and Molecular Biotechnologies (IBIOM), CNR, Via Giovanni Amendola 165/A, I-70126 Bari, Italy.

出版信息

Biol Chem. 2020 Mar 26;401(4):497-503. doi: 10.1515/hsz-2019-0221.

DOI:10.1515/hsz-2019-0221

PMID:31702995

Abstract

Impaired energy metabolism may play a role in the pathogenesis of neurodevelopmental disorders including fragile X syndrome (FXS). We checked brain energy status and some aspects of cell bioenergetics, namely the activity of key glycolytic enzymes, glycerol-3-phosphate shuttle and mitochondrial respiratory chain (MRC) complexes, in the cerebral cortex of the Fmr1 knockout (KO) mouse model of FXS. We found that, despite a hyperactivation of MRC complexes, adenosine triphosphate (ATP) production via mitochondrial oxidative phosphorylation (OXPHOS) is compromised, resulting in brain energy impairment in juvenile and late-adult Fmr1 KO mice. Thus, an altered mitochondrial energy metabolism may contribute to neurological impairment in FXS.

摘要

能量代谢受损可能在包括脆性 X 综合征 (FXS) 在内的神经发育障碍的发病机制中发挥作用。我们检查了大脑的能量状态和细胞生物能量学的一些方面，即关键糖酵解酶的活性、甘油-3-磷酸穿梭和线粒体呼吸链 (MRC) 复合物，在 FXS 的 Fmr1 基因敲除 (KO) 小鼠模型的大脑皮层中。我们发现，尽管 MRC 复合物过度激活，但通过线粒体氧化磷酸化 (OXPHOS) 产生的三磷酸腺苷 (ATP) 受到损害，导致幼年和成年晚期 Fmr1 KO 小鼠的大脑能量受损。因此，改变的线粒体能量代谢可能导致 FXS 的神经损伤。

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脆性 X 综合征 Fmr1 基因敲除小鼠模型大脑皮层中线粒体生物能量异常。

Aberrant mitochondrial bioenergetics in the cerebral cortex of the Fmr1 knockout mouse model of fragile X syndrome.

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