Piriform cortex provides a dominant gamma LFP oscillation in the anterior limbic system

Abstract

AbstractOscillations in the local field potential (LFP) are widespread throughout the rodent limbic system, including in structures such as the orbitofrontal cortex and nucleus accumbens. Synchrony between LFPs across these structures, as seen during specific behavioral events, is often interpreted as evidence of a functional interaction. However, the source of these oscillations is often tacitly assumed to be local, leading to a potential misattribution of function. Using in vivo simultaneous multisite recordings in freely moving male rats (n = 7) we demonstrate that gamma-band LFP oscillations (45-90 Hz) in multiple anterior limbic structures are highly synchronous not only with each other, but also with those in piriform cortex. Phase reversals across the piriform cortex cell layer and susceptibility to nasal occlusion indicate that piriform cortex is the source of these common gamma oscillations. Thus, gamma-band LFP oscillations seen in brain regions adjacent to the piriform cortex are likely not generated locally, but are instead volume conducted from the piriform cortex. This emerging view of gamma oscillations in anterior limbic circuits highlights the importance of the common piriform cortex input as a major influence and introduces caveats in the interpretation of locally recorded LFPs.