Circadian rhythm generation and entrainment in astrocytes
LM Prolo, JS Takahashi, ED Herzog - Journal of Neuroscience, 2005 - Soc Neuroscience
LM Prolo, JS Takahashi, ED Herzog
Journal of Neuroscience, 2005•Soc NeuroscienceIn mammals, the master circadian pacemaker is considered the suprachiasmatic nucleus
(SCN) of the hypothalamus. The SCN consists of a heterogeneous population of neurons
and relatively understudied glia. We investigated whether glia, like neurons, rhythmically
express circadian genes. We generated pure cultures of cortical astrocytes from Period2::
luciferase (Per2:: luc) knock-in mice and Period1:: luciferase (Per1:: luc) transgenic rats and
recorded bioluminescence as a real-time reporter of gene activity. We found that rat Per1 …
(SCN) of the hypothalamus. The SCN consists of a heterogeneous population of neurons
and relatively understudied glia. We investigated whether glia, like neurons, rhythmically
express circadian genes. We generated pure cultures of cortical astrocytes from Period2::
luciferase (Per2:: luc) knock-in mice and Period1:: luciferase (Per1:: luc) transgenic rats and
recorded bioluminescence as a real-time reporter of gene activity. We found that rat Per1 …
In mammals, the master circadian pacemaker is considered the suprachiasmatic nucleus (SCN) of the hypothalamus. The SCN consists of a heterogeneous population of neurons and relatively understudied glia. We investigated whether glia, like neurons, rhythmically express circadian genes. We generated pure cultures of cortical astrocytes from Period2::luciferase (Per2::luc) knock-in mice and Period1::luciferase (Per1::luc) transgenic rats and recorded bioluminescence as a real-time reporter of gene activity. We found that rat Per1::luc and mouse Per2::luc astroglia express circadian rhythms with a genetically determined period. These rhythms damped out after several days but were reinitiated by a variety of treatments, including a full volume exchange of the medium. If cultures were treated before damping out, the phase of Per1::luc rhythmicity was shifted, depending on the time of the pulse relative to the peak of Per1 expression. Glial rhythms entrained to daily 1.5°C temperature cycles and were significantly sustained when cocultured with explants of the adult SCN but not with cortical explants. Thus, multiple signals, including a diffusible factor(s) from the SCN, are sufficient to either entrain or restart circadian oscillations in cortical glia.
Soc Neuroscience