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The frequency-dependent effect of electrical fields on the mobility of intracellular vesicles in astrocytes

Yihua Wang, Thomas P. Burghardt, Gregory A. Worrell, Hai‐Long Wang

2020Biochemical and Biophysical Research Communications13 citationsDOIOpen Access PDF

Abstract

Slow-wave sleep, defined by low frequency (<4 Hz) electrical brain activity, is a basic brain function affecting metabolite clearance and memory consolidation. The origin of low-frequency activity is related to cortical up and down states, but the underlying cellular mechanism of how low-frequency activities affect metabolite clearance and memory consolidation has remained elusive. We applied electrical stimulation with voltages comparable to in vivo sleep recordings over a range of frequencies to cultured glial astrocytes while monitored the trafficking of GFP-tagged intracellular vesicles using total internal reflection fluorescence microscopy (TIRFM). We found that during low frequency (2 Hz) electrical stimulation the mobility of intracellular vesicle increased more than 20%, but remained unchanged under intermediate (20 Hz) or higher (200 Hz) frequency stimulation. We demonstrated a frequency-dependent effect of electrical stimulation on the mobility of astrocytic intracellular vesicles. We suggest a novel mechanism of brain modulation that electrical signals in the lower range frequencies embedded in brainwaves modulate the functionality of astrocytes for brain homeostasis and memory consolidation. The finding suggests a physiological mechanism whereby endogenous low-frequency brain oscillations enhance astrocytic function that may underlie some of the benefits of slow-wave sleep and highlights possible medical device approach for treating neurological diseases.

Topics & Concepts

IntracellularStimulationNeuroscienceMemory consolidationVesicleBiophysicsBiologyChemistryCell biologyBiochemistryHippocampusMembraneNeural dynamics and brain functionPhotoreceptor and optogenetics researchNeuroscience and Neuropharmacology Research
The frequency-dependent effect of electrical fields on the mobility of intracellular vesicles in astrocytes | Litcius