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脆性 X 智力低下 1 基因前突变等位基因的淋巴母细胞中线粒体功能、AMPK 和 TORC1 信号之间的关系。

Relationships between Mitochondrial Function, AMPK, and TORC1 Signaling in Lymphoblasts with Premutation Alleles of the FMR1 Gene.

机构信息

Department of Physiology Anatomy and Microbiology, La Trobe University, Bundoora, VIC 3086, Australia.

School of Psychology and Public Health, La Trobe University, Bundoora, VIC 3086, Australia.

出版信息

Int J Mol Sci. 2021 Sep 27;22(19):10393. doi: 10.3390/ijms221910393.

DOI:10.3390/ijms221910393
PMID:34638732
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8508849/
Abstract

The X-linked gene contains a non-coding trinucleotide repeat in its 5' region that, in normal, healthy individuals contains 20-44 copies. Large expansions of this region (>200 copies) cause fragile X syndrome (FXS), but expansions of 55-199 copies (referred to as premutation alleles) predispose carriers to a neurodegenerative disease called fragile X-associated tremor/ataxia syndrome (FXTAS). The cytopathological mechanisms underlying FXTAS are poorly understood, but abnormalities in mitochondrial function are believed to play a role. We previously reported that lymphoblastoid cell lines (LCLs, or lymphoblasts) of premutation carriers have elevated mitochondrial respiratory activities. In the carriers, especially those not clinically affected with FXTAS, AMP-activated protein kinase (AMPK) activity was shown to be elevated. In the FXTAS patients, however, it was negatively correlated with brain white matter lesions, suggesting a protective role in the molecular mechanisms. Here, we report an enlarged and extended study of mitochondrial function and associated cellular stress-signaling pathways in lymphoblasts isolated from male and female premutation carriers, regardless of their clinical status, and healthy controls. The results confirmed the elevation of AMPK and mitochondrial respiratory activities and reduction in reactive O species (ROS) levels in premutation cells and revealed for the first time that target of rapamycin complex I (TORC1) activities are reduced. Extensive correlation, multiple regression, and principal components analysis revealed the best fitting statistical explanations of these changes in terms of the other variables measured. These suggested which variables might be the most "proximal" regulators of the others in the extensive network of known causal interactions amongst the measured parameters of mitochondrial function and cellular stress signaling. In the resulting model, the premutation alleles activate AMPK and inhibit both TORC1 and ROS production, the reduced TORC1 activity contributes to activation of AMPK and of nonmitochondrial metabolism, and the higher AMPK activity results in elevated catabolic metabolism, mitochondrial respiration, and ATP steady state levels. In addition, the results suggest a separate CGG repeat number-dependent elevation of TORC1 activity that is insufficient to overcome the inhibition of TORC1 in premutation cells but may presage the previously reported activation of TORC1 in FXS cells.

摘要

X 连锁基因的 5'区域包含一个非编码三核苷酸重复序列,在正常健康个体中,该序列包含 20-44 个拷贝。该区域的大量扩增(>200 个拷贝)会导致脆性 X 综合征(FXS),但 55-199 个拷贝的扩增(称为前突变等位基因)会使携带者易患一种称为脆性 X 相关震颤/共济失调综合征(FXTAS)的神经退行性疾病。FXTAS 的细胞病理学机制尚未完全了解,但线粒体功能异常被认为发挥了作用。我们之前报道过,前突变携带者的淋巴母细胞系(LCL,或淋巴母细胞)的线粒体呼吸活性升高。在携带者中,尤其是那些没有临床 FXTAS 症状的携带者中,AMP 激活的蛋白激酶(AMPK)活性升高。然而,在 FXTAS 患者中,其与脑白质病变呈负相关,提示其在分子机制中发挥保护作用。在这里,我们报告了一项更大规模和扩展的研究,研究了从男性和女性前突变携带者以及健康对照中分离出的淋巴母细胞中线粒体功能和相关细胞应激信号通路。结果证实了前突变细胞中 AMPK 和线粒体呼吸活性的升高以及活性氧(ROS)水平的降低,并首次揭示了雷帕霉素复合物 I(TORC1)活性降低。广泛的相关性、多元回归和主成分分析揭示了这些变化与其他测量变量之间的最佳拟合统计解释。这表明在已知的线粒体功能和细胞应激信号测量参数之间的广泛因果相互作用网络中,哪些变量可能是其他变量的最“近端”调节剂。在所得到的模型中,前突变等位基因激活 AMPK 并抑制 TORC1 和 ROS 的产生,降低的 TORC1 活性有助于 AMPK 和非线粒体代谢的激活,而更高的 AMPK 活性导致分解代谢、线粒体呼吸和 ATP 稳态水平升高。此外,结果还表明,CGG 重复数依赖性的 TORC1 活性升高,但不足以克服前突变细胞中 TORC1 的抑制,但可能预示着之前报道的 FXS 细胞中 TORC1 的激活。

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