Cellular Energy Metabolite Decreases During Non-REM Sleep & Profoundly Decreases During REM, Finds Mouse Study0

To investigate whether the cellular energy status in the brain of living animals is always constant or is variated, researchers at the Tokyo Metropolitan Institute of Medical Science measured the neuronal intracellular concentration of adenosine 5′-triphosphate (ATP), the major cellular energy metabolite, using a fluorescent sensor in the brain of living mice.

Using an optical fiber and wide-field microscopy, they showed a cortex-wide variation of cytosolic ATP levels in the cortical neurons depending on the sleep-wake states of animals. The ATP levels were high during the waking state, decreased during non-REM sleep, and profoundly decreased during REM sleep. On the other hand, cerebral blood flow, as a metabolic parameter for energy supply, slightly increased during non-REM sleep and greatly increased during REM sleep, compared with the waking state.

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The reduction in neuronal ATP levels was also observed under general anesthesia in mice and response to local brain electrical stimulation for neuronal activation, whereas the hemodynamics was simultaneously enhanced.

Intracellular ATP levels reflect the balance between energy synthesis and consuming activities in the brain. During REM sleep, brain energy synthesis activities (measured as cerebral blood flow) increased while neuronal ATP levels significantly decreased, suggesting a great increase in neuronal energy-consuming activities. Credit: TMIMS

Since the neuronal ATP levels increase throughout the cortex in the waking state, which is when the cellular energy demand increases, brain mechanisms for energy modulation could increase the neuronal ATP levels in a cortex-wide manner in response to the sleep-to-wake transition of animals. Meanwhile, the great reduction of neuronal ATP levels during REM sleep despite a simultaneous increase of cerebral hemodynamics for energy supply suggests negative energy balance in neurons, which could be due to REM sleep-specific promotion of energy-consuming activities such as heat production.

The significant reduction of ATP levels in the cortical neurons during REM sleep is expected to use as a novel biomarker of REM sleep. Eventually, cerebral energy metabolism may not always meet neuronal energy demands, consequently resulting in physiological fluctuations of intracellular ATP levels in neurons.

Photo 150182571 © Kseniia GlazkovaDreamstime.com

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