Acetylcholine-Dependent Induction and Expression of Functional Plasticity in the Barrel Cortex of the Adult Rat

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Acetylcholine-Dependent Induction and Expression of Functional Plasticity in the Barrel Cortex of the Adult Rat

Valérie Ego-Stengel,¹ Daniel E. Shulz,¹ Sebastian Haidarliu,² Ronen Sosnik,² and Ehud Ahissar²

¹Unité de Neurosciences Intégratives et Computationnelles, Institut de Neurobiologie Alfred Fessard, Centre National de la Recherche Scientifique, 91198 Gif sur Yvette, France; and ²Department of Neurobiology, The Weizmann Institute of Science, 76100 Rehovot, Israel

Ego-Stengel, Valérie, Daniel E. Shulz, Sebastian Haidarliu, Ronen Sosnik, and Ehud Ahissar. Acetylcholine-Dependent Induction and Expression of Functional Plasticity in the Barrel Cortex of the Adult Rat. J. Neurophysiol. 86: 422-437, 2001. The involvement of acetylcholine (ACh) in the induction of neuronal sensory plasticity is well documented. Recently we demonstratedin the somatosensory cortex of the anesthetized rat that ACh isalso involved in the expression of neuronal plasticity. Pairingstimulation of the principal whisker at a fixed temporal frequencywith ACh iontophoresis induced potentiations of response thatrequired re-application of ACh to be expressed. Here we fullycharacterize this phenomenon and extend it to stimulation of adjacentwhiskers. We show that these ACh-dependent potentiations are cumulativeand reversible. When several sensori-cholinergic pairings wereapplied consecutively with stimulation of the principal whisker,the response at the paired frequency was further increased, demonstratinga cumulative process that could reach saturation levels. The potentiationswere specific to the stimulus frequency: if the successive pairingswere done at different frequencies, then the potentiation causedby the first pairing was depotentiated, whereas the response tothe newly paired frequency was potentiated. During testing, thepotentiation of response did not develop immediately on the presentationof the paired frequency during application of ACh: the analysisof the kinetics of the effect indicates that this process requiresthe sequential presentation of several trains of stimulation atthe paired frequency to be expressed. We present evidence thata plasticity with similar characteristics can be induced for responsesto stimulation of an adjacent whisker, suggesting that this potentiationcould participate in receptive field spatial reorganizations.The spatial and temporal properties of the ACh-dependent plasticitypresented here impose specific constraints on the underlying cellularand molecularmechanisms.

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