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Calcium-permeable AMPA receptors mediate long-term potentiation in interneurons in the amygdala

Nishith K. Mahanty and Pankaj Sah ()
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Nishith K. Mahanty: The Neuroscience Group and the Discipline of Human Physiology, Faculty of Medicine and Health Sciences, University of Newcastle, NSW
Pankaj Sah: The Neuroscience Group and the Discipline of Human Physiology, Faculty of Medicine and Health Sciences, University of Newcastle, NSW

Nature, 1998, vol. 394, issue 6694, 683-687

Abstract: Abstract Fear conditioning is a paradigm that has been used as a model for emotional learning in animals1. The cellular correlate of fear conditioning is thought to be associative N -methyl-D-aspartate (NMDA) receptor-dependent synaptic plasticity within the amygdala1,2,3. Here we show that glutamatergic synaptic transmission to inhibitory interneurons in the basolateral amygdala is mediated solely by α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors. In contrast to AMPA receptors at inputs to pyramidal neurons, these receptors have an inwardly rectifying current–voltage relationship, indicative of a high permeability to calcium4,5. Tetanic stimulation of inputs to interneurons caused an immediate and sustained increase in the efficacy of these synapses. This potentiation required a rise in postsynaptic calcium, but was independent of NMDA receptor activation. The potentiation of excitatory inputs to interneurons was reflected as an increase in the amplitude of the GABAA-mediated inhibitory synaptic current in pyramidal neurons. These results demonstrate that excitatory synapses onto interneurons within a fear conditioning circuit show NMDA-receptor independent long-term potentiation. This plasticity might underlie the increased synchronization of activity between neurons in the basolateral amygdala after fear conditioning6.

Date: 1998
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DOI: 10.1038/29312

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