Abstract
IN many regions of the cerebral cortex, Ca2+ influx through NMDA (N-methyl-D-aspartate) sensitive glutamate receptors (NMDA receptors) can trigger two forms of synaptic plasticity: long-term depression (LTD) and long-term potentiation (LTP)1. LTD is induced by low levels of postsynaptic NMDA-receptor activation, for instance in response to low-frequency stimulation, whereas LTP is induced by the stronger activation that occurs following high-frequency stimulation2–4. Theoretical studies have shown that the properties of synaptic LTD and LTP can account for many aspects of experience-dependent plasticity in the developing visual cortex, provided that the LTD-LTP crossover point (the modification threshold, Θm) varies as a function of the history of cortical activity5–7. Here we provide direct experimental evidence that the value of Θm depends on sensory experience. We find in visual cortex of light-deprived rats that LTP is enhanced and LTD diminished over a range of stimulation frequencies, and that these effects can be reversed by as little as two days of light exposure. Our findings support the idea that a variable synaptic-modification threshold allows synaptic weights in neural networks to achieve a stable equilibrium.
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Kirkwood, A., Rioult, M. & Bear, M. Experience-dependent modification of synaptic plasticity in visual cortex. Nature 381, 526–528 (1996). https://doi.org/10.1038/381526a0
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DOI: https://doi.org/10.1038/381526a0
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