TNFα siRNA reduces brain TNF and EEG delta wave activity in rats

2007 
Abstract Tumor necrosis factor alpha (TNFα) is a pleiotropic cytokine with several CNS physiological and pathophysiological actions including sleep, memory, thermal and appetite regulation. Short interfering RNAs (siRNA) targeting TNFα were incubated with cortical cell cultures and microinjected into the primary somatosensory cortex (SSctx) of rats. The TNFα siRNA treatment specifically reduced TNFα mRNA by 45% in vitro without affecting interleukin-6 or gluR1–4 mRNA levels. In vivo the TNFα siRNAα reduced TNFα mRNA, interleukin-6 mRNA and gluR1 mRNA levels compared to treatment with a scrambled control siRNA. After in vivo microinjection, the density of TNFα-immunoreactive cells in layer V of the SSctx was also reduced. Electroencephalogram (EEG) delta wave power was decreased on days 2 and 3 on the side of the brain that received the TNFα siRNA microinjection relative to the side receiving the control siRNA. These findings support the hypothesis that TNFα siRNA attenuates TNFα mRNA and TNFα protein in the rat cortex and that those reductions reduce cortical EEG delta power. Results also are consistent with the notion that TNFα is involved in CNS physiology including sleep regulation.
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