Litcius/Paper detail

Local extracellular K <sup>+</sup> in cortex regulates norepinephrine levels, network state, and behavioral output

Andrea Dietz, Pia Weikop, Natalie Hauglund, Mie Andersen, N. Petersen, Laura Rose, Hajime Hirase, Maiken Nedergaard

2023Proceedings of the National Academy of Sciences19 citationsDOIOpen Access PDF

Abstract

Extracellular potassium concentration ([K + ] e ) is known to increase as a function of arousal. [K + ] e is also a potent modulator of transmitter release. Yet, it is not known whether [K + ] e is involved in the neuromodulator release associated with behavioral transitions. We here show that manipulating [K + ] e controls the local release of monoaminergic neuromodulators, including norepinephrine (NE), serotonin, and dopamine. Imposing a [K + ] e increase is adequate to boost local NE levels, and conversely, lowering [K + ] e can attenuate local NE. Electroencephalography analysis and behavioral assays revealed that manipulation of cortical [K + ] e was sufficient to alter the sleep–wake cycle and behavior of mice. These observations point to the concept that NE levels in the cortex are not solely determined by subcortical release, but that local [K + ] e dynamics have a strong impact on cortical NE. Thus, cortical [K + ] e is an underappreciated regulator of behavioral transitions.

Topics & Concepts

NorepinephrineExtracellularNeuroscienceCortex (anatomy)ChemistryPsychologyBiologyCell biologyDopamineNeuroscience and Neuropharmacology ResearchSleep and Wakefulness ResearchMemory and Neural Mechanisms