Diagonal band stimulation increases piriform cortex neuronal excitability in vivo.

The effects of diagonal band (NDB) stimulation on the spontaneous discharge of pyramidal cells and evoked field potentials (FPs) in piriform cortex (PC) were investigated in vivo. NDB stimulation increased the spontaneous firing rate of PC cells, and increased the disynaptic excitatory (B1) and decreased the disynaptic inhibitory (P2) FP components following lateral olfactory tract (LOT) stimulation. NDB stimulation decreased the P2 component following activation of association fibers in caudal PC. NDB stimulation reduced the paired-pulse inhibition of the P2 component following LOT and caudal PC shocks. The effects of NDB stimulation were reversed by scopolamine, suggesting the involvement of muscarinic receptors. These results suggest that activation of cholinergic inputs to PC increases the excitability of pyramidal cells, probably by a disinhibitory mechanism.