| Popis: |
Stimulus-driven responses in the cortex reduce due to prior exposure to sensory stimuli, a phenomenon called sensory adaptation. Depression of synaptic supplies and afterhyperpolarization (AHP) following each action potential are the main proposed mechanisms for adaptation. In vitro studies have shown that the neuronal adaptation in the barrel cortex depends on slow AHPs. Such AHPs can be affected by neuromodulators, such as noradrenaline. This evidence suggests that Locus Coeruleus (LC) noradrenergic system may reduce sensory adaptation through this cellular mechanism. We proposed that LC stimulation before whisker deflection can affect the degree of adaptation in the barrel cortex, depending on the nature of noradrenergic interactions in the barrel cortex. We coupled adapted or non-adapted whisker deflections with LC phasic stimulation with a 400 ms interval. A 50ms sinusoidal vibration was applied to the whisker immediately before the test deflection. Neuronal activity was recorded from the barrel cortex (BC) in a urethane anesthetized rat. We quantified the effect of LC stimulation on the degree of adaptation in BC; a lower adaptation index shows lower adaptation. Our result showed that LC stimulation significantly modulated adapted response in 30 % of units with insignificant modulation on the adaptor or non-adapted response. This modulation was in two directions; adaptation decreased in 5 % of units and increased in 25 % of units.In addition to LC modulation on adaptor response in the level of individual units, adaptor response was lower modulated in around 70 % of units, on average. This modulation was not correlated by LC modulation on non-adapted response. Although sensory adaptation in BC was attenuate by LC stimulation in the majority of units, there was a limited number of units that showed significant modulation. |
