Variable bioenergetic sensitivity of neurons and astrocytes to insulin and extracellular glucose

Sophiya L. Sims, Hilaree N. Frazier, Sami L. Case, Ruei-Lung Lin, James N. Trosper, Hemendra J. Vekaria, Patrick G. Sullivan, Olivier Thibault
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Abstract

Energy flow within cellular elements of the brain is a well-orchestrated, tightly regulated process, however, details underlying these functions at the single-cell level are still poorly understood. Studying hypometabolism in aging and neurodegenerative diseases may benefit from experimentation on unicellular bioenergetics. Here, we examined energy status in neurons and astrocytes using mixed hippocampal cultures and PercevalHR, an ATP:ADP nanosensor. We assessed exposures of several compounds including KCl, glutamate, FCCP, insulin, and glucose. A mitochondrial stress test was performed, and PercevalHR’s fluorescence was corrected for pH using pHrodo. Results demonstrate that PercevalHR can reliably report on the energetic status of two cell types that communicate in a mixed-culture setting. While KCl, glutamate, and FCCP showed clear changes in PercevalHR fluorescence, insulin and glucose responses were found to be more subtle and sensitive to extracellular glucose. These results may highlight mechanisms that mediate insulin sensitivity in the brain.

Abstract Image

神经元和星形胶质细胞对胰岛素和细胞外葡萄糖的生物能敏感性各不相同
大脑细胞元素内的能量流动是一个精心策划、严格调控的过程,然而,人们对这些功能在单细胞水平上的基本细节仍然知之甚少。研究衰老和神经退行性疾病中的低代谢可能会受益于单细胞生物能的实验。在这里,我们使用混合海马培养物和 ATP:ADP 纳米传感器 PercevalHR 检测了神经元和星形胶质细胞的能量状态。我们评估了几种化合物的暴露情况,包括氯化钾、谷氨酸、短链氯化石蜡、胰岛素和葡萄糖。我们进行了线粒体压力测试,并使用 pHrodo 对 PercevalHR 的荧光进行了 pH 校正。结果表明,PercevalHR 可以可靠地报告在混合培养环境中进行交流的两种细胞类型的能量状态。氯化钾、谷氨酸和短链氯化石蜡会使 PercevalHR 的荧光发生明显变化,而胰岛素和葡萄糖的反应则更为微妙,且对细胞外葡萄糖更为敏感。这些结果可能突显了介导大脑胰岛素敏感性的机制。
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