Article Synopsis
- Over the past two decades, there's been significant progress in understanding how the brain's energy metabolism impacts health and disease, particularly due to its high energy demands from numerous neurons and essential functions.
- Disruptions in energy balance, mitochondrial control, or glia-neuron interactions can lead to brain circuit issues or serious central nervous system disorders.
- The review also covers key energy sources like glucose, glutamate, lactate, ketones, and how non-neuronal cells like astrocytes play crucial roles in energy transport and supply in the brain.
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Article Abstract
The past 20 years have resulted in unprecedented progress in understanding brain energy metabolism and its role in health and disease. In this review, which was initiated at the 14th International Society for Neurochemistry Advanced School, we address the basic concepts of brain energy metabolism and approach the question of why the brain has high energy expenditure. Our review illustrates that the vertebrate brain has a high need for energy because of the high number of neurons and the need to maintain a delicate interplay between energy metabolism, neurotransmission, and plasticity. Disturbances to the energetic balance, to mitochondria quality control or to glia-neuron metabolic interaction may lead to brain circuit malfunction or even severe disorders of the CNS. We cover neuronal energy consumption in neural transmission and basic ('housekeeping') cellular processes. Additionally, we describe the most common (glucose) and alternative sources of energy namely glutamate, lactate, ketone bodies, and medium chain fatty acids. We discuss the multifaceted role of non-neuronal cells in the transport of energy substrates from circulation (pericytes and astrocytes) and in the supply (astrocytes and microglia) and usage of different energy fuels. Finally, we address pathological consequences of disrupted energy homeostasis in the CNS.
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