Paying the brain's energy bill
Zahid Padamsey, Nathalie L. Rochefort
Abstract
How have animals managed to maintain metabolically expensive brains given the volatile and fleeting availability of calories in the natural world? Here we review studies in support of three strategies that involve: 1) a reallocation of energy from peripheral tissues and functions to cover the costs of the brain, 2) an implementation of energy-efficient neural coding, enabling the brain to operate at reduced energy costs, and 3) efficient use of costly neural resources during food scarcity. Collectively, these studies reveal a heterogeneous set of energy-saving mechanisms that make energy-costly brains fit for survival.
Topics & Concepts
Energy (signal processing)ScarcitySet (abstract data type)NeuroscienceEnergy costComputer scienceEnvironmental economicsBiologyEconomicsMicroeconomicsProgramming languageMathematicsStatisticsNeural dynamics and brain functionAdipose Tissue and MetabolismZebrafish Biomedical Research Applications