MLKL overexpression leads to Ca2+ and metabolic dyshomeostasis in a neuronal cell model

IF 4.3 2区 生物学 Q2 CELL BIOLOGY
Sathyaseelan S Deepa , Nidheesh Thadathil , Jorge Corral , Sabira Mohammed , Sophia Pham , Hadyn Rose , Michael T Kinter , Arlan Richardson , Carlos Manlio Díaz-García
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Abstract

The necroptotic effector molecule MLKL accumulates in neurons over the lifespan of mice, and its downregulation has the potential to improve cognition through neuroinflammation, and changes in the abundance of synaptic proteins and enzymes in the central nervous system. Notwithstanding, direct evidence of cell-autonomous effects of MLKL expression on neuronal physiology and metabolism are lacking. Here, we tested whether the overexpression of MLKL in the absence of cell death in the neuronal cell line Neuro-2a recapitulates some of the hallmarks of aging at the cellular level. Using genetically-encoded fluorescent biosensors, we monitored the cytosolic and mitochondrial Ca2+ levels, along with the cytosolic concentrations of several metabolites involved in energy metabolism (lactate, glucose, ATP) and oxidative stress (oxidized/reduced glutathione). We found that MLKL overexpression marginally decreased cell viability, however, it led to reduced cytosolic and mitochondrial Ca2+ elevations in response to Ca2+ influx from the extracellular space. On the contrary, Ca2+ signals were elevated after mobilizing Ca2+ from the endoplasmic reticulum. Transient elevations in cytosolic Ca2+, mimicking neuronal stimulation, lead to higher lactate levels and lower glucose concentrations in Neuro-2a cells when overexpressing MLKL, which suggest enhanced neuronal glycolysis. Despite these alterations, energy levels and glutathione redox state in the cell bodies remained largely preserved after inducing MLKL overexpression for 24–48 h. Taken together, our proof-of-concept experiments are consistent with the hypothesis that MLKL overexpression in the absence of cell death contributes to both Ca2+ and metabolic dyshomeostasis, which are cellular hallmarks of brain aging.

Abstract Image

在神经元细胞模型中,MLKL 过表达会导致 Ca2+ 和代谢失衡
在小鼠的整个生命周期中,坏死效应分子 MLKL 会在神经元中积累,下调该分子有可能通过神经炎症以及改变中枢神经系统中突触蛋白和酶的丰度来改善认知能力。尽管如此,目前还缺乏直接证据证明 MLKL 的表达对神经元生理和代谢的细胞自主效应。在这里,我们测试了神经元细胞系 Neuro-2a 在没有细胞死亡的情况下过度表达 MLKL 是否会在细胞水平上再现衰老的一些特征。我们利用基因编码的荧光生物传感器监测了细胞膜和线粒体的 Ca2+ 水平,以及参与能量代谢(乳酸、葡萄糖、ATP)和氧化应激(氧化/还原谷胱甘肽)的几种代谢物的细胞膜浓度。我们发现,MLKL 的过表达略微降低了细胞的活力,但却降低了细胞膜和线粒体 Ca2+ 在细胞外空间 Ca2+ 流入时的升高。相反,从内质网调动 Ca2+ 后,Ca2+ 信号升高。模拟神经元刺激的细胞膜 Ca2+ 瞬时升高导致过表达 MLKL 的 Neuro-2a 细胞中乳酸水平升高而葡萄糖浓度降低,这表明神经元糖酵解增强。总之,我们的概念验证实验与以下假设一致:在没有细胞死亡的情况下,MLKL 的过表达会导致 Ca2+ 和代谢失衡,而这正是脑衰老的细胞标志。
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来源期刊
Cell calcium
Cell calcium 生物-细胞生物学
CiteScore
8.70
自引率
5.00%
发文量
115
审稿时长
35 days
期刊介绍: Cell Calcium covers the field of calcium metabolism and signalling in living systems, from aspects including inorganic chemistry, physiology, molecular biology and pathology. Topic themes include: Roles of calcium in regulating cellular events such as apoptosis, necrosis and organelle remodelling Influence of calcium regulation in affecting health and disease outcomes
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