氯氮平诱导星形胶质细胞依赖性 FDG-PET 代谢减低。

Clozapine induces astrocyte-dependent FDG-PET hypometabolism.

机构信息

Graduate Program in Biological Sciences: Biochemistry, Universidade Federal Do Rio Grande Do Sul, Porto Alegre, Brazil.

Proaction Laboratory, Faculty of Psychology and Education Sciences, University of Coimbra, Coimbra, Portugal.

出版信息

Eur J Nucl Med Mol Imaging. 2022 Jun;49(7):2251-2264. doi: 10.1007/s00259-022-05682-3. Epub 2022 Feb 5.

DOI:10.1007/s00259-022-05682-3

PMID:35122511

Abstract

PURPOSE

Advances in functional imaging allowed us to visualize brain glucose metabolism in vivo and non-invasively with [F]fluoro-2-deoxyglucose (FDG) positron emission tomography (PET) imaging. In the past decades, FDG-PET has been instrumental in the understanding of brain function in health and disease. The source of the FDG-PET signal has been attributed to neuronal uptake, with hypometabolism being considered as a direct index of neuronal dysfunction or death. However, other brain cells are also metabolically active, including astrocytes. Based on the astrocyte-neuron lactate shuttle hypothesis, the activation of the glutamate transporter 1 (GLT-1) acts as a trigger for glucose uptake by astrocytes. With this in mind, we investigated glucose utilization changes after pharmacologically downregulating GLT-1 with clozapine (CLO), an anti-psychotic drug.

METHODS

Adult male Wistar rats (control, n = 14; CLO, n = 12) received CLO (25/35 mg kg) for 6 weeks. CLO effects were evaluated in vivo with FDG-PET and cortical tissue was used to evaluate glutamate uptake and GLT-1 and GLAST levels. CLO treatment effects were also assessed in cortical astrocyte cultures (glucose and glutamate uptake, GLT-1 and GLAST levels) and in cortical neuronal cultures (glucose uptake).

RESULTS

CLO markedly reduced in vivo brain glucose metabolism in several brain areas, especially in the cortex. Ex vivo analyses demonstrated decreased cortical glutamate transport along with GLT-1 mRNA and protein downregulation. In astrocyte cultures, CLO decreased GLT-1 density as well as glutamate and glucose uptake. By contrast, in cortical neuronal cultures, CLO did not affect glucose uptake.

CONCLUSION

This work provides in vivo demonstration that GLT-1 downregulation induces astrocyte-dependent cortical FDG-PET hypometabolism-mimicking the hypometabolic signature seen in people developing dementia-and adds further evidence that astrocytes are key contributors of the FDG-PET signal.

摘要

目的

功能成像的进步使我们能够通过氟-18-脱氧葡萄糖（FDG）正电子发射断层扫描（PET）成像对脑葡萄糖代谢进行体内无创可视化。在过去的几十年中，FDG-PET 对理解健康和疾病状态下的脑功能起到了重要作用。FDG-PET 信号的来源归因于神经元摄取，而代谢低下被认为是神经元功能障碍或死亡的直接指标。然而，其他脑细胞也具有代谢活性，包括星形胶质细胞。根据星形胶质细胞-神经元乳酸穿梭假说，谷氨酸转运体 1（GLT-1）的激活作用是星形胶质细胞摄取葡萄糖的触发因素。考虑到这一点，我们研究了用氯氮平（CLO）下调 GLT-1 后葡萄糖利用的变化，氯氮平是一种抗精神病药物。

方法

成年雄性 Wistar 大鼠（对照组，n=14；CLO 组，n=12）接受氯氮平（25/35mg/kg）治疗 6 周。通过 FDG-PET 对 CLO 的作用进行体内评估，并使用皮质组织评估谷氨酸摄取以及 GLT-1 和 GLAST 水平。还在皮质星形胶质细胞培养物（葡萄糖和谷氨酸摄取、GLT-1 和 GLAST 水平）和皮质神经元培养物（葡萄糖摄取）中评估 CLO 治疗的作用。

结果

CLO 明显降低了几个脑区的脑内葡萄糖代谢，尤其是皮质区。离体分析显示皮质谷氨酸转运以及 GLT-1 mRNA 和蛋白下调。在星形胶质细胞培养物中，CLO 降低了 GLT-1 密度以及谷氨酸和葡萄糖摄取。相比之下，在皮质神经元培养物中，CLO 并不影响葡萄糖摄取。

结论

这项工作提供了体内证据，表明 GLT-1 下调诱导星形胶质细胞依赖性皮质 FDG-PET 代谢低下，模拟了痴呆患者的代谢低下特征，并进一步证明星形胶质细胞是 FDG-PET 信号的关键贡献者。

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氯氮平诱导星形胶质细胞依赖性 FDG-PET 代谢减低。

Clozapine induces astrocyte-dependent FDG-PET hypometabolism.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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