Mitochondrial fatty acid oxidase CPT1A ameliorates postoperative cognitive dysfunction by regulating astrocyte ferroptosis

IF 2.7 4区医学 Q3 NEUROSCIENCES Brain Research Pub Date : 2024-12-25 DOI:10.1016/j.brainres.2024.149424

Yinglan Su , Qian Yuan

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Abstract

Background

Postoperative cognitive dysfunction (POCD) is a significant surgery-related complication marked by cognitive decline. Studies indicated that neuroinflammation, ferroptosis, and mitochondrial fatty acid metabolism might play parts in POCD, and might be mediated by Carnitine palmitoyl transferase 1a (CPT1A), but requires further investigations. Therefore, this study aims to investigate the mechanism of mitochondrial fatty acid oxidase CPT1A on mitochondrial function, ferroptosis, and inflammation in POCD pathogenesis.

Methods

SVG P12 astrocytes were used to investigate CPT1A’s control over mitochondrial function, ferroptosis, and inflammation affecting neurons. CPT1A was overexpressed using shRNA, with or without oligomycin to modulate mitochondrial function. Co-culture of these astrocytes with neurons, under similar conditions, assessed CPT1A’s impact on neuron damage via ferroptosis and inflammation. Gene and protein expressions of CPT1A, SYN, PSD95 were measured via RT-PCR and WB. Detection of JC-1, mitochondrial oxygen consumption rate (OCR), ROS, Fe²⁺ concentration, MOD, SOD and GSH/GSSG using kits was conducted to explore mitochondrial function and ferroptosis. Inflammation was quantified by ELISA for IL-6, IL-1β, and TGF-β.

Results

We successfully established CPT1A overexpression and knockdown models in astrocytes, confirming CPT1A’s ability to enhance mitochondrial membrane potential. Elevated CPT1A levels led to improved mitochondrial function, synaptic integrity, reduced oxidative stress, maintained iron homeostasis, and attenuated neuroinflammation, as reflected by increased SYN, PSD95, OCR, GSH and SOD, decreased ROS,GSSG, MDA, iron levels, and lowered inflammatory factors expression. Treatment with oligomycin reversed these protective effects, demonstrating the dependency of CPT1A’s benefits on intact mitochondrial respiration. In co-culture experiments with hippocampal neurons, astrocytes with manipulated CPT1A levels, particularly those co-treated with oligomycin, exacerbated neuronal mitochondrial dysfunction, oxidative stress, iron accumulation, and inflammation.

Conclusion

Overexpression of mitochondrial fatty acid oxidase CPT1A might improve synaptic integrity and rescue POCD by ameliorating astrocyte ferroptosis and neuroinflammation.

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线粒体脂肪酸氧化酶CPT1A通过调节星形细胞铁下垂改善术后认知功能障碍。

背景：术后认知功能障碍（POCD）是一种以认知能力下降为特征的重要手术相关并发症。研究表明，神经炎症、铁下沉和线粒体脂肪酸代谢可能在POCD中发挥作用，并可能由肉毒碱棕榈酰转移酶1a （CPT1A）介导，但需要进一步研究。因此，本研究旨在探讨线粒体脂肪酸氧化酶CPT1A在POCD发病过程中对线粒体功能、铁上落和炎症的作用机制。方法：采用SVG P12星形胶质细胞，研究CPT1A对线粒体功能、铁下垂和炎症影响神经元的控制。使用shRNA过表达CPT1A，使用或不使用寡霉素调节线粒体功能。在类似条件下，将这些星形胶质细胞与神经元共培养，评估CPT1A通过铁下垂和炎症对神经元损伤的影响。RT-PCR和WB检测CPT1A、SYN、PSD95基因和蛋白的表达。采用试剂盒检测JC-1、线粒体耗氧率（OCR）、ROS、Fe2+浓度、MOD、SOD和GSH/GSSG，探讨线粒体功能与铁沉的关系。采用ELISA法检测IL-6、IL-1β和TGF-β。结果：我们成功建立了星形胶质细胞CPT1A过表达和敲低模型，证实了CPT1A增强线粒体膜电位的能力。CPT1A水平升高导致线粒体功能改善，突触完整性改善，氧化应激降低，维持铁稳态，神经炎症减轻，表现为SYN、PSD95、OCR、GSH和SOD升高，ROS、GSSG、MDA、铁水平降低，炎症因子表达降低。用寡霉素治疗逆转了这些保护作用，证明了CPT1A的益处依赖于完整的线粒体呼吸。在海马神经元共培养实验中，操纵CPT1A水平的星形胶质细胞，特别是与寡霉素共培养的星形胶质细胞，加剧了神经元线粒体功能障碍、氧化应激、铁积累和炎症。结论：线粒体脂肪酸氧化酶CPT1A的过表达可能通过改善星形胶质细胞凋亡和神经炎症来改善突触完整性和挽救POCD。

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来源期刊

Brain Research 医学-神经科学

CiteScore

5.90

自引率

3.40%

发文量

268

审稿时长

47 days

期刊介绍： An international multidisciplinary journal devoted to fundamental research in the brain sciences. Brain Research publishes papers reporting interdisciplinary investigations of nervous system structure and function that are of general interest to the international community of neuroscientists. As is evident from the journals name, its scope is broad, ranging from cellular and molecular studies through systems neuroscience, cognition and disease. Invited reviews are also published; suggestions for and inquiries about potential reviews are welcomed. With the appearance of the final issue of the 2011 subscription, Vol. 67/1-2 (24 June 2011), Brain Research Reviews has ceased publication as a distinct journal separate from Brain Research. Review articles accepted for Brain Research are now published in that journal.