Neurophysiology of limbic system pathways in the rat: projections from the amygdala to the entorhinal cortex.

We studied the responses of rat entorhinal neurons to electrical stimulation of the amygdala. Four main results were obtained: (1) excitatory postsynaptic potentials were recorded in entorhinal neurons in response to electrical stimulation of the amygdala. Cells in layers II, III and V of the entorhinal cortex were responsive. (2) Excitatory responses were followed by inhibitory postsynaptic potentials. (3) Frequency potentiation of both excitatory and inhibitory responses was observed when 10/s stimulation was used. (4) Three amygdala neurons were antidromically activated by entorhinal stimulation; and two layer II entorhinal cells that were excited by amygdala stimulation were also antidromically activated by dentate gyrus stimulation. These results provide evidence for a monosynaptic, excitatory projection from the amygdala to the entorhinal cortex. In addition, the data indicate that amygdala neurons are only one synapse removed from the excitation of dentate gyrus granule cells.

Physiological evidence for an excitatory pathway from entorhinal cortex to amygdala in the rat.

We studied the responses of amygdala neurons to entorhinal cortex stimulation in anaesthetized rats. Intracellular and extracellular data were obtained in a total of 16 cells located throughout the amygdaloid complex and two cells in adjacent piriform cortex. In addition, antidromic responses to amygdala stimulation were obtained in 7 cells of the entorhinal or perirhinal cortex. All recordings in the amygdala showed orthodromic excitatory responses (spikes or EPSPs), with a mean latency of 8 ms. These were succeeded by IPSPs with a mean latency of 15 ms. Two cells in piriform cortex responded to entorhinal stimulation with inhibition alone. A cell in the region of the basomedial nucleus showed characteristics of an inhibitory interneuron. Cells in entorhinal and perirhinal cortex responding antidromically to amygdala stimulation were found primarily in layers III-V. Axons of one such cell, which was injected with HRP, were seen to course rostrally to the region of the amygdala within the fiber tract of the external capsule. Three entorhinal cells (layer III) responded antidromically to both amygdala and hippocampal formation stimulation. A neuronal circuit diagram accounting for our findings is presented.