Advertisement
News
Advertisement

Mistimed Sleep Disrupts Human Molecular Clock

Wed, 01/22/2014 - 8:30am
The research placed 22 participants on a 28-hour day schedule, with their sleep-wake cycle delayed by four hours each day until sleep occurred during the middle of the day. (Source: University of Surrey)A new study, conducted by sleep and systems biology researchers from the University of Surrey, has found that the daily rhythms of many genes are disrupted when sleep times shift.
 
The research, funded by a grant from the BBSRC and conducted in the University of Surrey’s Clinical Research Centre, saw 22 participants placed on a 28-hour day schedule, with their sleep-wake cycle delayed by four hours each day until sleep occurred during the middle of the day. Researchers then collected blood samples to measure the participants’ rhythms of gene expression.
 
Results revealed that during the disruption of sleep timing, there was a six-fold reduction in the number of genes that displayed a circadian rhythm– the clock that regulates the daily cycles of our bodies as we transition from day to night and wakefulness to sleep. This included many regulators associated with transcription and translation, indicating widespread disruption to many biological processes.
 
The study, published in the journal Proceedings of the National Academy of Sciences (PNAS), also revealed which genes may be regulated by sleep-wake cycles and which are regulated by central body clocks. This finding provides new clues about sleep’s function as separate from the circadian clock.  
 
“The results suggest that sleep-wake cycles affect molecular mechanisms which are at the core of the generation of circadian rhythms of gene transcription. This research may help us to understand the negative health outcomes associated with shift work, jet lag and other conditions in which temporal organisation is compromised," said Professor Derk-Jan Dijk, who led the research. “The results also imply that sleep-wake schedules can be used to influence bodily processes, which may be very relevant for conditions in which circadian rhythmicity is altered, such as in aging.”
 
Dr. Simon Archer, one of the leading authors of the research, added: “Over 97 percent of rhythmic genes became arrhythmic with mistimed sleep and this really underlines why we feel so bad during jet lag, or if we have to work irregular shifts.”
 
Advertisement

Share this Story

X
You may login with either your assigned username or your e-mail address.
The password field is case sensitive.
Loading