Affiliation:
1. Program in Neuroscience, Department of Biological Science Florida State University Tallahassee Florida USA
2. Department of Neuroscience and Pharmacology Carver College of Medicine University of Iowa Iowa City Iowa USA
3. Iowa Neuroscience Institute Iowa City Iowa USA
4. Interdisciplinary Graduate Program in Genetics University of Iowa Iowa City Iowa USA
Abstract
AbstractIn countries around the world, sleep deprivation represents a widespread problem affecting school‐age children, teenagers, and adults. Acute sleep deprivation and more chronic sleep restriction adversely affect individual health, impairing memory and cognitive performance as well as increasing the risk and progression of numerous diseases. In mammals, the hippocampus and hippocampus‐dependent memory are vulnerable to the effects of acute sleep deprivation. Sleep deprivation induces changes in molecular signaling, gene expression and may cause changes in dendritic structure in neurons. Genome wide studies have shown that acute sleep deprivation alters gene transcription, although the pool of genes affected varies between brain regions. More recently, advances in research have drawn attention to differences in gene regulation between the level of the transcriptome compared with the pool of mRNA associated with ribosomes for protein translation following sleep deprivation. Thus, in addition to transcriptional changes, sleep deprivation also affects downstream processes to alter protein translation. In this review, we focus on the multiple levels through which acute sleep deprivation impacts gene regulation, highlighting potential post‐transcriptional and translational processes that may be affected by sleep deprivation. Understanding the multiple levels of gene regulation impacted by sleep deprivation is essential for future development of therapeutics that may mitigate the effects of sleep loss.image
Funder
National Institute on Aging
Subject
Cellular and Molecular Neuroscience,Biochemistry
Cited by
12 articles.
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