通过定量成像技术研究三磷酸腺苷生成率揭示人类大脑的功能能量反应和个体差异。
Functional energetic responses and individual variance of the human brain revealed by quantitative imaging of adenosine triphosphate production rates.
机构信息
Center for Magnetic Resonance Research (CMRR), Department of Radiology, University of Minnesota Medical School, Minneapolis, MN, USA.
出版信息
J Cereb Blood Flow Metab. 2018 Jun;38(6):959-972. doi: 10.1177/0271678X18769039. Epub 2018 Apr 10.
Abstract
Cellular ATP energy metabolism and regulation are essential for brain function and health. Given the high ATP expenditure at resting-state, it is not yet clear how the human brain at working-state can effectively regulate ATP production to meet higher energy requirement. Through quantitative measurement of regional cerebral ATP production rates and associated neurophysiological parameters in human visual cortex at rest and during visual stimulation, we found significant stimulus-induced and highly correlated neuroenergetic changes, indicating distinctive and complementary roles of the ATP synthesis reactions in supporting evoked neuronal activity and maintaining ATP homeostasis. We also uncovered large individual variances in the neuroenergetic responses and significant reductions in intracellular [H] and free [Mg] during the stimulation. These results provide new insights into the mechanism underlying the brain ATP energy regulation and present a sensitive and much-needed neuroimaging tool for quantitatively assessing neuroenergetic state in healthy and diseased human brain.
摘要
细胞的 ATP 能量代谢和调节对于大脑功能和健康至关重要。鉴于静息状态下的高 ATP 消耗,目前尚不清楚工作状态下的人脑如何有效地调节 ATP 生成以满足更高的能量需求。通过对人类视觉皮层在休息和视觉刺激期间的局部脑 ATP 生成率和相关神经生理参数进行定量测量,我们发现了显著的刺激诱导和高度相关的神经能量变化,表明 ATP 合成反应在支持诱发神经元活动和维持 ATP 平衡方面具有独特而互补的作用。我们还发现,在刺激过程中,神经能量反应存在较大的个体差异,细胞内[H]和游离[Mg]显著减少。这些结果为大脑 ATP 能量调节的机制提供了新的见解,并为定量评估健康和患病人类大脑的神经能量状态提供了一种敏感且急需的神经影像学工具。
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