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The Journal of Neurophysiology Vol. 88 No. 2 August 2002, pp. 839-846
Copyright ©2002 by the American Physiological Society
1Institute of Pharmacology and Toxicology, CH-8057, 2University Hospital, Department of Clinical Immunology, CH-8044, University of Zürich, Zürich, Switzerland; and 3Department of Physiology, 2300RC, Leiden University Medical Center, Leiden, The Netherlands
Deboer, Tom,
Adriano Fontana, and
Irene Tobler.
Tumor Necrosis Factor (TNF) Ligand and TNF Receptor Deficiency
Affects Sleep and the Sleep EEG. J. Neurophysiol. 88: 839-846, 2002. Tumor necrosis factor
(TNF) and lymphotoxin-
(LT-) are proinflammatory cytokines
involved in host defense and pathogenesis of various diseases. In
addition, there is evidence that TNF is involved in sleep. TNF and
LT- both bind to the tumor necrosis factor receptors (TNFR).
Recently, it was shown that TNF receptor 1 (TNFR1) knockout mice (R1KO)
sleep less during the light period than controls. We investigated the
effect of a TNF and LT- double deficiency on sleep in mice (Ligand
KO) and compared their sleep with that of R1KO, TNFR2 knockout (R2KO)
mice, and wild-type (WT) controls. All mice were adapted to a 12:12 h
light:dark cycle and their electroencephalographs (EEG) and
electromyographs (EMG) were continuously recorded during a baseline
day, 6-h sleep deprivation (SD), and 18-h recovery. Ligand KO and R2KO
had 15% less rapid eye movement (REM) sleep during the baseline light
period due to a reduction in REM sleep episode frequency. After SD, all
genotypes showed an initial increase in slow-wave activity (SWA) (EEG
power density between 0.75 and 4.0 Hz) in non-REM sleep, which
gradually declined in the following hours. In Ligand KO the increase
was mainly caused by an increase in fast SWA (2.75-4.0 Hz), which was
also increased in R2KO. In contrast, in R1KO mice the increase was
limited to the slow portion of SWA (0.75-2.5 Hz). R2KO and WT mice
showed increases in both frequency ranges. The sub-division into fast
and slow SWA frequencies corresponds to previous electrophysiological data where the two types of slow-waves were induced by either excitatory or inhibitory stimuli. Our data suggest that in Ligand KO
the SWA increase is caused by an increase in excitatory input to the
cortex, whereas in R1KO this input seems to be almost absent.
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