Quantitative proteomics of sleep-deprived mouse brains reveals global changes in mitochondrial proteins

J Ren, MJ Zhang, TM Li, J Zhang, R Lin, S Chen… - PLoS …, 2016 - journals.plos.org
J Ren, MJ Zhang, TM Li, J Zhang, R Lin, S Chen, M Luo, MQ Dong
PLoS One, 2016journals.plos.org
Sleep is a ubiquitous, tightly regulated, and evolutionarily conserved behavior observed in
almost all animals. Prolonged sleep deprivation can be fatal, indicating that sleep is a
physiological necessity. However, little is known about its core function. To gain insight into
this mystery, we used advanced quantitative proteomics technology to survey the global
changes in brain protein abundance. Aiming to gain a comprehensive profile, our
proteomics workflow included filter-aided sample preparation (FASP), which increased the …
Sleep is a ubiquitous, tightly regulated, and evolutionarily conserved behavior observed in almost all animals. Prolonged sleep deprivation can be fatal, indicating that sleep is a physiological necessity. However, little is known about its core function. To gain insight into this mystery, we used advanced quantitative proteomics technology to survey the global changes in brain protein abundance. Aiming to gain a comprehensive profile, our proteomics workflow included filter-aided sample preparation (FASP), which increased the coverage of membrane proteins; tandem mass tag (TMT) labeling, for relative quantitation; and high resolution, high mass accuracy, high throughput mass spectrometry (MS). In total, we obtained the relative abundance ratios of 9888 proteins encoded by 6070 genes. Interestingly, we observed significant enrichment for mitochondrial proteins among the differentially expressed proteins. This finding suggests that sleep deprivation strongly affects signaling pathways that govern either energy metabolism or responses to mitochondrial stress. Additionally, the differentially-expressed proteins are enriched in pathways implicated in age-dependent neurodegenerative diseases, including Parkinson’s, Huntington’s, and Alzheimer’s, hinting at possible connections between sleep loss, mitochondrial stress, and neurodegeneration.
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