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New research into circadian rhythms by researchers at the University of Toronto Mississauga shows that the GRK2 protein plays a major role in regulating the body’s internal clock and points the way to remedies for jet lag and shift work exhaustion.
The study, published in the Aug. 25 issue of Cell Reports, was authored by graduate students Neel Mehta, Arthur H. Cheng, Lucia Mendoza Viveros and post-doctoral fellow Cheng-Kang Chiang, under the supervision of Hai-Ying M. Cheng, a professor in the Department of Biology.
“In our brain, we have an internal master clock called the suprachiasmatic nucleus (SCN) that generates and governs circadian rhythms,” says Mehta, who recently earned his MSc and is moving on to PhD studies. “Our internal clocks must regularly be re-set so they are always close to being in synchrony with the external environmental time.
“For example, when people are jet-lagged, there is asynchrony between the internal clock and the new environmental light-dark cycle. We keep experiencing jetlag until finally our internal clocks manually re-set themselves to the new environmental schedule.”
Mehta and his colleagues looked at how the SCN clock functions in the brain at the molecular level by exploring the regulatory roles played by the protein, GRK2, which is more traditionally known for the important role it plays in regulating heart function. In this study, the researchers determined that GRK2 was also abundantly expressed in the SCN throughout all phases of the circadian cycle.
The researchers first used mice as test subjects, since their SCN master clock is similar to that of humans. They compared mice that were missing GRK2 with ordinary mice and found those that lacked the protein had a lengthened behavioral circadian rhythm, an impaired response to light and took longer to recover from experientially simulated jet lag.
Next, the researchers considered what too much GRK2 protein might mean for PERIOD1 and PERIOD2—key proteins required for the clock to function properly. They found that GRK2 suppressed the genetic copying of PERIOD1 and prevented the transport of PERIOD1 and PERIOD2 proteins into the nucleus of the cell, where they are protected against degradation. “If this trafficking is inhibited, the clock won’t function properly,” Mehta says.
The full suite of tests run by the researchers shed light on additional mechanisms and signaling pathways involved in regulating the circadian clock at the molecular level. Their findings suggest that GRK2 has an important impact on circadian clock speed, amplitude and re-setting.
“Having a greater understating of the regulatory mechanisms controlling our circadian clocks points the way to more specialized research, such as teasing out mechanisms that might be critical for the clocks’ proper functioning, and for human health in general,” Mehta says, noting jet lag and the regular exhaustion experienced by shift workers as two obvious areas for further exploration.
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The above post is reprinted from materials provided by the University of Toronto Mississauga.
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