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The Journal of Neuroscience, December 7, 2005, 25(49):11279-11287; doi:10.1523/JNEUROSCI.4476-05.2005

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Behavioral/Systems/Cognitive
Bidirectional Activity-Dependent Plasticity at Corticostriatal Synapses

Elodie Fino,¹ Jacques Glowinski,² and Laurent Venance¹

¹Dynamique et Physiopathologie des Réseaux Neuronaux, Institut National de la Santé et de la Recherche Médicale (INSERM) U-667, and ²Neurobiologie Pharmacologique, INSERM U-114, Collège de France, 75231 Paris Cedex 05, France

Corticostriatal projections originate from the entire cerebral cortex and provide the major source of glutamatergic inputs to the basal ganglia. Despite the importance of corticostriatal connections in sensorimotor learning and cognitive functions, plasticity forms at these synapses remain strongly debated. Using a corticostriatal slice preserving the connections between the somatosensory cortex and the target striatal cells, we report the induction of both non-Hebbian and Hebbian forms of long-term potentiation (LTP) and long-term depression (LTD) on striatal output neurons (SONs). LTP and LTD can be induced selectively by different stimulation patterns (high-frequency trains vs low-frequency pulses) and were evoked with similar efficiency in non-Hebbian and Hebbian modes. Combination of LTP–LTD and LTD–LTP sequences revealed that bidirectional plasticity occurs at the same SONs and provides efficient homeostatic mechanisms leading to a resetting of corticostriatal synapses avoiding synaptic saturation. The effect of temporal relationship between cortical stimulation and SON activity was assessed using spike-timing-dependent plasticity (STDP) protocols. An LTP was observed when an action potential was triggered in the striatal neuron before the cortical stimulus, and, conversely, an LTD was induced when the striatal neuron discharge was triggered after the cortical stimulation. Such STDP was reversed when compared with those described so far in other mammalian brain structures. This mechanism may be essential for the role of the striatum in learning of motor sequences in which sensory and motor events are associated in a precise time sequence.

Key words: basal ganglia; striatum; cortex; LTP; LTD; homeostasis; spike-timing-dependent plasticity

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Received May 25, 2005; accepted October 24, 2005.

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