Slow wave activity (SWA;0.5-4.0 Hz) in the sleep electroencephalogram is a marker of sleep need, increasing with the duration of prior wakefulness and decreasing exponentially during sleep. The biological process responsible for the increase of SWA as a function of prior wakefulness, however, remains unknown. According to a recent hypothesis - the synaptic homeostasis hypothesis of sleep function - plastic processes occurring during wakefulness result in a net increase in synaptic strength in many cortical circuits. As a consequence, when cortical neurons begin oscillating at low frequencies during sleep, they become strongly synchronized, leading to slow waves of high amplitude and thereby to increased SWA. These slow waves, in turn, are responsible for the renormalization of synaptic strength and have beneficial effects on energy metabolism and performance. Recent work has shown that, consistent with the hypothesis, wakefulness is associated with the induction of genes involved in synaptic potentiation, such as Arc, BDNF, P-CREB, and NGFI-A, while sleep is associated with higher expression of genes involved in synaptic depression, such as calcineurin and NSF. Building upon these results, this Project will examine specific molecular markers of synaptic potentiation/depression in parallel with local field potential recordings of SWA in freely behaving rats.
Aim 1 will quantify synaptic AMPA receptor number and phosphorylation state in wakefulness and sleep to confirm the prediction that the former is associated with synaptic potentiation and the latter with synaptic depression.
Aim 2 will test the prediction that sleep SWA will be higher, for the same amount of wakefulness, if markers of synaptic potentiation are induced at higher levels through increased exploratory activity.
Aim 3 will employ a forelimb motor learning task inspired by the human learning task used in Projects II, III, and IV to test the prediction that local molecular changes associated with synaptic potentiation are associated with a local increase in SWA homeostasis in rat contralateral motor cortex. Thus, this Project will provide the molecular / electrophysiological underpinning for the entire proposal.

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Exploratory Grants (P20)
Project #
5P20MH077967-03
Application #
7910542
Study Section
Special Emphasis Panel (ZMH1)
Project Start
Project End
Budget Start
2009-07-01
Budget End
2010-06-30
Support Year
3
Fiscal Year
2009
Total Cost
$214,657
Indirect Cost
Name
University of Wisconsin Madison
Department
Type
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
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