Fruit flies are pretty predictable when it comes to scheduling their days, with peaks of activity at dawn and dusk and rest times in between. Now, researchers reporting in the Cell Press journal Cell Reports on April 17th have found that the clusters of brain cells responsible for each of those activity peaks -- known as the morning and evening
oscillators(振荡器), respectively -- don't work alone. For flies' internal clocks to follow the sun, cooperation is key. "Without proper
synchronization1(同步), circadian clocks are useless or can even be
deleterious(有毒的) to organisms," said Patrick Emery from the University of Massachusetts Medical School. "In addition, most organisms have to detect changes in day length to adapt their rhythms to seasons.
"Our work clearly shows that light is detected by individual neurons that then communicate with each other to properly define the phase of circadian behavior," he added. "This emphasizes the importance of
neural2 interaction in the generation of properly phased circadian rhythms."
In the brains of Drosophila fruit flies, there are approximately 150 circadian neurons, explained Emery and coauthor Yong Zhang, including a small group of morning oscillators that promote activity early in the day and another group of evening oscillators that promote activity later. Morning oscillators also set the pace of
molecular3 rhythms in other parts of the brain, and hence the phase of circadian behavior. Scientists had thought they did this by relying heavily on their own sensitivity to light -- what Emery calls "cell-autonomous photoreception." Indeed, these cells do express fruit flies'
dedicated4 photoreceptor Cryptochrome (CRY). But recent evidence suggested that something was missing from that simple view.
In the new study, the researchers manipulated CRY's ability to function through another clock
component5, known as JET (short for Jetlag), in different circadian neurons and watched what happened. The studies show that light detection by the morning oscillators isn't enough to keep flies going about their business in a timely way. They need those evening oscillators too.
JET's role is bigger than expected as well. In addition to enabling cell-autonomous light sensing, the protein also allows distinct circadian neurons to talk to each other in rapid fashion after light exposure, although the researchers don't yet know how.
The new model also suggests that flies and mammals have more similarities than had been appreciated when it comes to
synchronizing6 their activities to the sun, the researchers say. In mammals, specific neurons of the circadian pacemaker of the brain (known as the Suprachiasmatic
Nucleus7 or SCN) receive light
input8 from the retina. Those cells then communicate with pacemaker neurons, which
resets9 the circadian network as a whole.